epitaxy data of inorganic and organic crystals

1 Einleitung - Introduction

1.1 Definition und Bezeichnung - Definition and notation

Epitaxie bezeichnet jede strukturabhangige Any structure-dependent intergrowth (over- Verwachsung (Aufwachsung, Fortwachsung) zweier growth) of two chemically and/or structurally chemisch und/oder strukturell verschiedener kri- different crystalline or subcrystalline phases is stalliner oder subkristalliner Phasen. Als chemisch called epitaxy. Doping, stacking faults or order- oder strukturell verschieden gelten such Dotie- disorder phenomena are treated as chemical or rungs- und Fehlordnungsunterschiede. Auch eine structural differences. For example, an oriented orientierte Aufwachsung von z. B. Ge (dotiert) auf overgrowth of doped Ge on a host crystal of pure Ge (rein) gilt also als Epitaxie. Ge is also considered as an epitaxial phenomenon.

Ein epitaktisches System besteht somit grund- satzlich aus einem vorgegebenen Wirtkristall (Sub- strat) und einer auf ihm aufgewachsenen Gast- phase.

Any epitaxial system consists therefore of two partners : the host crystal (substrate) and the guest phase (deposit).

Die nach Chemismus, Valenz und Struktur in- homogene Ubergangsschicht zwischen den epitak- tischen Partnern wird als ,,Kontaktzone” bezeichnet.

The inhomogenous transition layer between epitaxial partners is the “interface”. The inhomo- genity may be caused by chemical properties, va- lence states or structural properties.

Differenzierende Bezeichnungen, wie Topotaxie, Endotaxie, Heterotaxie oder Autotaxie, werden hier nicht benutzt.

Differentiating designations, such as topotaxy, endotaxy, heterotaxy or autotaxy, are not used here.

Da Epitaxie orientierte Keimbildung und orien- t.iertes Wachstum einer Gastsubstanz auf einer kristallinen Wirtflache (Tragerflache) bedeutet, ist die Kenntnis der Gesetze und Methoden der Keim- bildung und des Kristallwachstums fiir Verstandnis und Erzeugung epitaktischer Systeme unabding- bar. Siehe z. B. [I] .+. [fl.

Since epitaxy involves oriented nucleation and overgrowth of a deposited layer on a crystalline substrate surface, the knowledge of theory and techniques of nucleation and ‘crystal growth is a prerequisite for understanding and generating epitaxial intergrowth. See e.g. [I] . *. [7].

1.2 Allgemeine Bemerkungen - General remarks

Epitaxie ist eine sehr haufige Erscheinung, wobei die Gastphase aus Lijsungen oder Schmelzen, aus der Gas- oder Dampfphase oder elektrolytisch gebildet sein kann [8], [9].

Beispiele fiir epitaktische Systeme : viele Systeme in der modernen Diinnschichtphysik, z. B. Cu,O auf Cu; Ge auf oc-Al,O,; Korrosionsfilme auf Metallen, z. B. Fe0 auf Fe; Al,O, auf Al und andere Reaktionsfilme auf kristallinen Oberflslchen; Schutzschichten auf kristallinen Festkorpern, z. B. Zn,(PO,), . 4 H,O auf Fe; AlOOH auf Al; biologische Systeme, z. B. Apatit-Kollagen-Ver- wachsungen.

Bis in die zwanziger Jahre war die Epitaxie nur ein beschreibender Forschungszweig der Mine- ralogie. Erst mit der Entwicklung der RBntgen- methoden und der damit gegebenen Mdglichkeit,

Epitaxy is a very common phenomenon involv- ing the growth of a deposit from solution, a melt, gas or vapor phase or by electrolysis [S] ; [9].

Examples for epitaxial systems : many systems in contemporary thin layer physics, e.g. Cu,O on Cu; Ge on a-Al,O,; corrosion films on metals, e.g. Fe0 on Fe; Al,O, on Al and other reaction films on crystalline surfaces;

protective coatings on crystalline solids, e.g. Zn,(PO,),. 4 H,O on Fe; AlOOH on Al; biologic systems, e.g. apatite-collagen-overgrowths.

Until the twenties, epitaxy was only a descrip- tive branch of mineralogy, but with the develop- ment of X-ray methods and the possibility for determining structures of the epitaxial partners,

Landolt-BBmstein, New Serie III/S

Gebhardt /Neuhaus 1

2 I Einleitung

die Strukturen der Venvachsungspartner zu be- stimmcn, fand sic mehr Interesse. Heute bildet die Epitaxie-Forschung eine wichtige Grundlage fiir die Untersuchung vieler chemischer, physikalischer und technischer Probleme.

Zur Zeit sind bereits Arbeiten iiber mehrere Tausend Epitaxien veroffentlicht worden, leider vielfach ohne selbst die dtirftigsten Orientierungs- angaben. Es schien daher notwendig, das weit ver- streute Material zu sammeln, zu sichten und tabel- larisch aufzunehmen.

1.3 Anordnung - Arrangement

Die Tabclle ist in vier Teile gegliedert: anorganisch-anorganische Epitaxien, Kapitel 2, anorganisch-organische Epitaxien, Kapitel 3, organisch-anorganische Epitaxien, Kapitel 4, organisch-organische Epitaxien, Kapitel 5.

In jedem Teil sind die Epitaxien nach den Wirt- kristallen (Substraten) geordnet und getrennt durchnumeriert. Diese Nummern sind im Sub- stanzenverzeichnis, Kapitel 7, zusammen mit den Kapitelnummern bcnutzt; siehe such S. 162.

Zur Kennzeichnung der anorganischen Kristalle ist auSer der chcmischcn Formel der Mineralname oder, fur Verbindungen ohne hlineralnamen, das Symmetricsymbol aufgefiihrt. Die Anordnung der anorganischen Verbindungen ‘folgt dem pcrio- dischen System.

Die organischen Verbindungen sind nach der Bruttoformel mit steigenden C- und H-Zahlen geordnet. Jede Verbindung ist durch die Formel und mindestens einen Namen gekennzcichnet. Der erste Name ist der Originalarbeit entnommen, der zweite gibt, wcnn niitig, den gcbrauchlichcren systema- tischcn oder den Vulgarnamen an.

Die Angabe der Venvachsungsebcnen und der korrespondierenden Gitterrichtungen folgt soweit wie meglich den zitierten Autoren. Bei rhombo- edrischen Kristallen werden daher hexagonale (hkil) [uvw] und rhomboedrische (hkl) [uvw] Indizcs nebeneinander venvandt. Venvachsungen, die in bezug auf die Symmetrie identisch sind, werden zusammengefaW, wobei eine der equi- valenten Bezeichnungcn ausgewahlt wird : z. B. sind bei Ag auf NaCl (Nr. 2-685) die Angaben (loo), (010). (001) und [oo~], [OIO], [IOO] sowie (ioo), (oio), (ooi) und [ooi], [oio]. [ioo] unter (001) und [100] zusammcngefa0t.

Die angcgebcnen Wirt- und Gast-Verwach- sungspcrioden entsprechcn einander im allge- meinen nicht unmittclbar, sondern polymeranalog; d. h. einc Elemcntarperiode des Trggers oder Gastes ist im allgemcinen erst eincm kleinen ganz- zahligen Vielfachen der epitaktisch vcnvachscnen Partncrperiodc analog.

epitaxy has become more interesting. Today, epitaxy research is an important basis for investi- gations in many chemical, physical and technical problems.

At present thousands of epitaxial systems are known in literature, though unfortunately many of them with rather poor information on orientation Therefore it seemed necessary to collect, evaluate and compile the scattered experimental data.

The table consists of four parts: inorganic-inorganic epitaxies, chapter 2, inorganic-organic epitaxies, chapter 3, organic-inorganic epitaxies, chapter 4, organic-organic epitaxies, chapter 5.

In each part the epitaxies are arranged according to the substrate crystal and separately num- bered. These numbers are used in the index of substances, chapter 7, together with the numbers of the chapters, see also page 162.

To identify inorganic crystals the mineral name or for compounds without mineral name the symmetry symbol is given in addition to the chemical formula. The arrangement of the inorganic compounds follows the periodic system.

The organic compounds are arranged according to their gross formula with increasing C and H numbers. Each compound is specified by its formula and at least one name. The first name is the one taken from the original paper; the second one gives, if necessary, the more usual systematical or common name.

As far as possible the epitaxial planes and the corresponding lattice parameters are given in accord with the cited original paper. Thus in the case of rhombohedral crystals both hexagonal (hkil) [UVW] and rhombohedral (hkl) [uvw] indices are used. Epitaxies which are identical according to symmetry are combined and one of the equi- valent notations is chosen; e.g. for Ag on NaCl (No. 2-685) the notations (100), (010), (001) and [OOI], [OIO], [IOO] as well as (TOO), (OiO), (OOi) and [ooi], [oio], [LOO] are listed as (001) and [IOO].

The given host (substrate) and guest (deposit) intergrowth-periods do not necessarily correspond directly, but are rational multiples of one another. This is analogous to polymer substances.

Gebhardt lNeuhaus

1 Introduction -3

1.4 Erlkterungen - Explanations

Abweichung: prozentualer Unterschied der korrespondierenden Strukturperioden bezogen auf den Wirt.

Nadelachse: Bezeichnung fiir die gri%te Di- mension der Gastkristallite. Diese Orientierungs- bezeichnung wurde nur dann angegeben, wenn von dieser Substanz in der Literatur keine Kristall- strukturdaten gefunden werden konnten.

*: die Gitterparameter des Gast- und/oder Wirtkristalls fehlen in der Originalarbeit; die an- gegebenen Perioden wurden von den Autoren dieser Tabelle aus kristallchemischen Analogie- beziehungen erschlossen.

**: fiir eine eindeutige Bestimmung der rela- tiven Orientierung sind die Angaben in der Original- arbeit zu diirftig; die angegebene Verwachsung wurde von den Autoren dieser Tabelle aus Kristall- strukturdaten erschlossen.

1.5 Literatur zur Einleitung - References for the introduciion

Misfit: percentage difference of the correspond, ing structure periods in relation to the substrate.

Nadelachse = needle axis: notation for tht largest dimension of the deposit crystallites. Thir notation is only given if no ‘information on crysta structure of the compound could be found in the literature.

* : the lattice parameters of this deposit and/o] substrate crystal are not available in the literature the. listed periods are deduced by the present authors on the basis of crystal-chemical analogies

**: for a definite determination of this sub. strate-deposit-orientation the data in literature art inadequate; the listed epitaxy is deduced by tht present authors from crystal structure data.

1 i

Wilke, K.-Th. : Methoden der Kristallziichtung; HI Deutsch, Frankfurt 1963. Johnstone, Mary C. (Editor) : Conference on clean surfaces with supplement: Surface pheriomem

‘in semiconductors (symposium) ; Annals of the New York Academy of Sciences, Volume 101 Art. 3, Pages 583-1014, 1963.

3 Francombe, M. H., and H. Sato (Editors) : SingleCrystal Films; Proceedings of an Internationa Conference held at Philco Scientific Laboratory, Blue Bell, Pennsylvania, May I 963 ; Oxford

4. London, Edinburgh, New York, Paris, Frankfurt : Pergamon Press I 964.

Bethge, H., W. Kleber, und A. Neuhaus: Physik und Chemie der Kristalloberflache; Vortrags, tagung vom 8. bis I I. Oktober 1966 in Halle (Saale) ; Nova Acta Leoppldina, Supplementun Nr. I, Band 34; Leipzig: Johann Ambrosius Barth 1968.

5 Drauglis, E., R. D. Gretz and R. I. Jaffee (Editors): Molecular Processes on Solid Surfaces Battelle Institute Materials Science Colloquia, Kronberg, May 6- 11, 1968; New York San Francisco, Toronto, London, Sydney : McGraw-Hill Book Company I 969.

6 Kaldis, E., and M. Schieber (Editors): Crystal Growth and Epitaxy from the Vapour Phase Proceedings of the first International Conference on Crystal Growth’ and Epitaxy from tht Vapour Phase, Zurich, 23. -26. September 1970; Journal of Crystal Growth, Volume 5 (I 971) ; Amsterdam: North-Holland Publishing Company 1971:

7 Hartmann, P. (Editor) : Crystal Growth. An Introduction. Amsterdam : North-Holland Publish. ing Company 1972. ! .:

8 Neuhaus, A. : Fortschr. Mineral. 29/30 (1950/51) 136. 9 Schneider, H. G., and V. Ruth (Editors) : Advances in Epitaxy and Endotaxy; Leipzig: VEE

Deutscher Verlag fiir Grundstoffindustrie I 971. .I .

Gebhardt /Neuhaus .

2 Epitaxien anorganischer Gastkristalle auf anorganischen Wirtkristallen - Epitaxies of inorganic deposit crystals on inorganic substrate crystals

‘r. Wirt

Phasen

Gast

Ebenen Richtungen Perioden [A] Rb-

Wi* Gast Wirt Gast Wirt Gast weichung Lit.

%

2.1 Elemente und Legierungen - Elements and alloys

2.1.1 Elemente - Elements 1 Cu, kubisch fl&chenzentriert Ag, kubisch fl$ichenzentriert (110) (111) i3fll

y; 2855 2.85 12.9 36 COG

2 (001) (001) [1001 3,61 4.0s 13.0 51 Kim; 50 Neu I 3 (loo) (iii) [oii] [Ii01 2355 2,ss 12,9 63 Ble; 51 Kim 4 (110) (110) ;%; WI 3861 4.05 13/J 63 Ble; 51 Kim 5 (111) (111) [i To] 2955 2,ss 12,9 56 Haa 2; 51 Kim:

49 Mer 6 Cu Au, kubisch flichenzentriert (110) (110) [Et; roo11 3,62 4,07 12,4 54 Wil2; 49 Mer i (001) (001) [1001 3,62 4,07 12,4 50 Neu 1

(iii) (iii) [Iio] [iio] 2,57 2,ss 12,l 59 Laf 2; 56 Haa 2; 54 Wil2

9 CU Cd, hexagonal dichteste (iii) (0001) [iio] [II .O] 2857 2.97 IS,6 49 Mer Kugelpackung

10 cu Co, kubisch fl?ichenzentriert (001) (001) II1001 y; 3,61 3,54 -I,9 54 Ro-v; 36 COG II (110) (110) WI 3,61 3,54 -189 50 Neu 1 12 (111) I:::; [iio] wo11 5,lO 3.54 - 30,6 49 Mer 13 cu Cr, kubisch raumzentriert

;::A; [lie] WI 2,55 2.5s 1,2,9 49 Mer; 36 Cot

14 (211) [iio] [ill] 5312 4,99 -2,s 59 Red 15 (100) (110) roll1 Pi;; 5.12 4.99 -2.5 59 Red 16 (111) 17 cu a-Fe, kubisch raumzentriert (III)

(110) y;; 5,12 4,99 -2,s 59 Red (110) [lie] 2,57 2903 -21 ,o 49 Mer

IS (iii) (ioi) [izi] [loi] 4,44 4,06 -S,6 51 Kim 19 (110) (211) [iio] [ill] 2,57 2,49 -3.1 63 Red; 59 Red 20 (iii) (110) [ioi] [loo] 2957 2,S7 If,7 5G Haa 2; 51 Kim 21 (100) (ilo) [oil] [till 2,57 2149 -331 59 Red 22 (111) (110) [I iol r[:;;; 2,57 2,49 -3,l 59 Red 23 cu Ni, kubisch flachenzentriert (111) (Ill) [I To] 2,55 2,49 -2,4 51 Kim; 49 Mer 24 (001) (001) [IO01 [IO01 3,61 3,52 -2,s 54 Roy; 51 Kim;

36 Cot 25 (110) (110) [OOI] [OOI] 3,61 3,52 -2,s 51 Kim: 50 Neu 1

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Sub-

Misfit Substrate Deposit

De- %

Ref. strate posit strate posit strate posit

26 Cu, kubisch flachen- Pb, kubisch flachenzentriert (111) (111) [IIO] [ITO] a55 3,50 37,3 51 Kim 27 zentriert (001) (001) [IO01 [IO01 3,61 4,95 37,l 51 Kim 28

1;;;; 1;;;; ;y;;; p;; 3,61 4,95 37,1 51 Kim 29 CU Pd, kubisch flachenzentriert 5,12 5,50 7,4 56 Haa 2

30 cu Te, D~yP3,21 (111) (0001) [ITO] [10.0] 5,12 4.46 -12,9 68 And

31 cu Zn, hexagonal dichteste (111) (0001) [ITO] [IT.01 2,57 2,66 3,s 49 Mer 32 Kugelpackung (111) (Olll) [IIO] [lO*O] 2,57 2,66 3,5 56 Haa 2 33 cu (Au, Cu), kubisch flachen- (001) (001) [loo] [loo] 3.62 3,85 64 51 Kina 34 zentriert (110) (110) [OOI] [OOI] 3.62 3,85 64 51 Kim

.35 cu Cu,Sn, kubisch flachen- (111) (100) [IIO] [OIO] 5,12 4,74 y-7,4 51 Kim 36 zentriert (f11) (001) [I TO] [1001 5,12 5,49 772 51 Kim 37 cu CuZn,, kubisch raumzentriert (111) (101) [I TO] [1001 5,12 562 9,s 51 Kim 38 (111) (001) [I TO] [IO01 5,12 5,62 9,s 51 Kim 39 cu AuCl, orthorhombisch (100) (ill) [OOI] [ITO] 3,62 3,63 0,3 54 Wil2

40 cu AgCl, Chlorargyrit (110) (110) [Ill] [I121 6,25 6,80 8,s 63 Ble

41 cu CuBr, Ti--Fi3m (111) (111) [lTO] [TIZ]. 7,71 695 -9,9 41 Usm 42 (111) (111) [ITO] [ITO] 7971 8,05 4,4 49 Mer 43 cu CuCI, Ti-Fqgm (001) (001) [I101 [IO01 5,12 5,42 599 49 Mer 44 cu NaCl, Halit (111) (111) [I101 [I101 2755 3,00 1796 51 Joh; 50 Joh 4 45 (100) (100) [loo] [IIO] 3,61 3,00 -1699 51 Joh 46 Cu Cu J, Marshit (111) (111) [I TO] [rlz] IS,42 14,85 -3,7 41Usm 47 . (001) (001) [I 001 [I101 3,61 4,28 18,6 50 vu1 48 (001) (111) [Ii01 [II21 15,42 14,85 -3.7 49 Mer 49 cu Cu,O, Cuprit (001) (001) [loo] [loo] 3,62 4127 18,O 66 Men: 64 Bro;

64 Mey; 62 Ben; 59Sco;58 Tre: 55 Dix; 50 Vul: 50 Leu; 49 Mer; 47 Shi; 3G Bru; 30Spa

50 (001) (111) [110] [ilO] 2,57 3,02 f7,5 66 Men; 64 Bro; 63 Yod: 62 Ben; 62 Cat; 59 Bou; 59 Law: 54 Wil2; 50 Vul; 48 Men; 47 Shi; 3G Ela; 30 Spa; 03 Mue

51 (001) (332) [I101 [ilO] 2,57 3,02 f7,5 47 Shi 52 (113) (110) [3321 [OOII 4,24 4,27 097 57 Men; 49 Men

I- Ir.

53

54

56 57 5s

60

61

62 63 64 65 66 67 68 69 70

71 72 73 74 75 76 77

Phasen Ebenen

Wirt

Cu. kubisch flichen- zcntriert (Fortseteung)

cu

cu

Gast Wirt

Cu,O, Cuprit

PbO,, Plattnerit

CuO, Tenorit

Gast

[iio]

[I io]

[I iol

[i io]

2.57 3.02 17.5

2,57 3,02 17,5

(114) [i io] [i To] 2,57 3.02 17,5

(111) [1*x [~I~1 4,44 5,23 17,s (221) [II01 [ilo] 2,57 3,02 17,5 (011) [i io] [i io] 2,57 3,02 17,5

(014 [I211 [I211 4,44 5,23 17,s

(110) [i io] [i To] 2,57 3902 17,5

(110) [I io] [I io] 2957 3,02 17.5

[IO01 [IIZ] [I io] [ml [II01 [1001 [i io]

[%;

[IO01 [ii21 [i io]

;::1; [IIZ]

[E::;

[OO~I

3362 4.27 18,o 4,44 5,23, 17,s 2857 3,02 1785 4,24 4.27 0,7 5812 5,23 2,1

IO,56 IO,46 -3,7 7,6S 6.80 -II,5 3,62 3,40 -6,1 5,12 5,ll --ci,z

(01~) (010) (100) (Ill)

;:::; (110)

[i 1 i] [1001 [IO01 [II01 [1001 [I101 PO11

FE?;;

WOI [ioi] [OIOI [ioi] r1101

625 6,16 -1,4 7,24 7,84 8,3 7924 7,46 3,O 7971 7.54 187 7,24 7,46 390 7.71 7,84 I,7 3,61 3,07 -15,O

Richtungen

Wirt

Perioden [A]

Wirt Gast

Ab- weichung

% Lit.

57 Pig

66 Men; 62 Ben; 62 Cut; 60 Bou: 59 Bou; 59 Law: 58 Tre: 57 Men: 56 Dix; 50 Leu: 50 Vul; 46 Ben: 41 Usm: 37 Thi; 30 S+a 57 Men: 54 Gos; 49 Men 66 Neu: 41 Usm 47 Ben 59 Law: 50 Neu 1; 46 Ben 59 Law: 56 Gos; 54 Gos 62 Cat; 59 Law: 56 Dix; 50 Leu: 46 Ben: 37 Thi 62 Cat: 59 Bou; 59 Law; 50 Neu I 66 Neu; 62 Ben 66 Neu 66 Neu; 62 Ben 66 Net4 66 Neu 38 Moo: 37 Thi 51 Kim 51 Kim 66 Neu: 55 Dix; 49 Hon 55 Dix 49 Hon 47 Shi 47 Shi 47 Shi 47 Shi 66 Neu

Phases Planes Directions Periods [A] No,. Substrate Deposit Sub- De- Sub- ‘De- Sub- De-

Misfit o/ Ref.

strate posit strate posit &rate posit /D

78 Cu, kubisch flachen- CuO, Tenorit (001) (010) [loo] [iOl] 3,61 3,72 3,o 66 Neu 79 zentriert (Fortsetzung) (091) (010) [OIO] [IOI] 3,61 3,15 -l&7 66 Neu

80 cu CuS, Covellin (110) (1120) [III] [12.0] 3,13 3,29 5,1 59 Tre; 41 Usm

81 cu Cu,S, Chalkosin (110) (110) [Ii01 [OOI] 13,85 13,44 -3,o 66 Neu; G2 Ben 82 (110) (010) [OOI] [loo] lo,86 II,92 9,s 59 Tre

83 (110) (010) PO11 ;y; 14,48 13,44 -77,2 59 Tre

84 (111) (111) [I IO] IS,42 14,90 -3,4 49Mer

85 (110) (110) [I TO] PO11 5,lO 4,34 --14,9 41 Usm 86 yi (010) WI iI lo,86 II,88 9,4 59 Tre 87 cu Cu.& ‘kubisch (111) [I TO] [I 1 Z] IO,20 IO,62 4,1 62 Ben

88 cu C&S,, Digenit (110) (110) [I 1 Z] PO?1 4,44 4734 -293 59 Tre

89 cu Zn,[POJ,.4H,O, Hopeit (001) (010) [IIO] [OOI] 5,lO 5,03 -I,4 67 Geb 2

90 (100) (010) [Oll] [100] IO,20 IO,64 4,3 68 Neu I, 2; 64 Geb

91 (100) (010) [0111 iwl 5,10 5,03 -I,4 67Geb 2 92 Cu (Mn,W,J&Wd,-4 J&O, (001) (100) [loo] [OOI] IO,20 9,51 -6,8 67 Geb 2

Hureaulith 93 cu Zn,Ca[POJ, .2 H,O, Scholzit (001) (100) [loo] [OOI] 722 6,61 -8,4 67 Geb 2

94 (100) (100) [OOII PO11 722 6,61 --8,4 66 Neu :95 cu AuCN, Dih -P6/mmm (100) (1121) [IIO] [II.01 IO,28 IO,20 -0,8 54 Wil2

96 Ag, kubisch fllchen- Au, kubisch flachen- (001) (001) [fool [1001 4,os 4,07 -0.2 61 Shi; 49 Mer; zentriert zentriert 3G Bru

97 y; iw [If01 [I101 2,88 2,87 -0,3 69 Sch; 69 Sha 2 98 Ag Co, kubisch flachenzentriert (111) [I IO] [I IO] 2,89 3,04 5,2 69 Gru 2

99 Ag Cu, kubisch flachenzentriert (001) (001) [I 001 II1 001 4,08 3,61 -II,5 61 Shi 100 (111) (111) [If01 [Ii01 2889 2,57 -II,1 69Gru'Z ‘01 Ag Ni, kubisch flachenzentriert (111) (11.1)’ [I101 [JIO] Z89 3,58 2379 69Gru 2 102 (001) (001) [lop] [loo] 4,08 3,53 -13,s 61 Shi 103 Ag Pb, kubisch flachenzentriert (111) (111) [IIO] [IIO] Z89 3,50 57 New 104

21,l (001) (111) [II01 [I101

105 Ag 2,89 3,50 21,l 61 Shi

Pd, kubisch flachenzentriert (001) (001) [loo] [loo] 4,os 3,89 -4,7 61 Shi 106 Ag Sn, D$ - 14Jamd (111) (100) [Ii01 [OlO] 5,77 5m 0,9 57 New 107 Ag Th, kubisch flachenzentriert (111) (001) [*IO] [loo] 5,77 5,07 -12,l 57 New 108 Ag Ag,Al, kubisch raumzentriert (001) (001) [IIO] [loo] 2,89 325 12,5 61 Shi 109 & Ag,Al, hexagonal dichteste (111) (0001) [I101 [IO.01 Z89 2,87 --0,7 61Shi

Rugelpackung ,_ 116 .. ig

., AgBr, Bromargyrit (111) (111) [ITO] [ITO] 2,88 2,89 013 62 Ben; 51 Pas:

50 Pas; 42 Sch 1

Phasen Ebenen Richtungen Perioden [A] Ab- Nr.

Wirt Gast Wirt Gast weichung

Wirt Gast Lit.

Wirt Gast %

111 Ag, kubisch flichen- AgBr, Bromargyrit (001) (001) [loo] [IIO] 4,0s 4,09 02 66 Neu; 62 Ben: zentriert (Fortsetzung) 51 Pas: 50 Neu 1:

50 Ber f 112 (100) (211) [oio] [oli] 4,0s 4909 02 51 Pas 113 (loo) (iii) [oio] [oli] 4,08 4,09 02 51 Pas: 49 Mer;

40 Wil2 114 (110) (110) [lie] [ool] 5977 5,75 02 66 Neu; 51 Pas:

50 Ber 1 115 (100) (110) [OOI] [OOI] 4.08 2,89 -29.2 42 Sch f 116 (110) (110) WI [I To] 4,0s 4.09 02 66 Neu 117 Ag AgCI, Chlorargyrit (Iii) (ill) [lie] [iio] S,64 7,86 -9,o 62 Ben; 5f Pas;

50 Pas; 42 ScA 1 11s (001) (001) [loo] [IIO] 4,os 3393 -3,7 66 Neu; 62 Ben:

51 Job: 51 Pas: 49 Mer: 40 WiL 2

119 (110) iiio) [iio] [ooi] 5877 5.56 -386 51 Pas 120 y; y; wo11 [0011 4,og Se56 36,3 42 Sch f 121 [1001 [f101 4,os 3,93 -3.7 49 Mer; 40 Wil2 122 Ag CsBr, 0: - Pm3m (100) (100) [loo] [loo] 4,OY 4.29 5.1 52 Sch 2 123 (iii) (iii) [ilo] [liZI 11,52 IO,50 --5,9 52 Sch 2 124 Ag CsCI, OA- Pm3m (100) (100) [loo] [loo] 4,0s 4,11 0,7 52 Sch 2; 50 Neu 1;

49 Mer: 31 Sb i25 (iii) (111) [ilo] [ilZ] 11,54 10.10 -12.5 52 Sch 2 126 Ag fl-Ag J, Jodargyrit (III) (0001) [i io] [li -01 5.66 9.1s 60 51 Pas 127 (001) (0001) [loo] [IO-O] 4.05 4.59 12,5 40 Wil2 128 Ag K J, Oi-Fm3m (iii) (iii) [iio] [lrZ!] 16,62 17.29 480 52 Sch 2 129 & LiF, O%-Fm3m (III) (III) [I101 [I101 2,ss 2,70 -6.3 52 Sch 2

130 Ag a-Ag J, Miersit (III) (111) [2ii] [i io] IO,00 9,f7 -8.3 57 Pas 131 _ (iii) (iii) [lie] [iio] 5,64 9.17 61 51 Pas 132 (001) (001) [IIO] [loo] 5.77 6,49 12,5 49 Mer; 40 Wi12 133 (001) (Ill) [loo] [IIO] S,16 9.17 12.4 40 Wil2 134

;::A; (001) [If01 [I101 5.77 4.55 172 66 Neu

135 Ag NaBr, Ok-Fm3m ;:;;;

r1001 [I101 4,0s 4,24 3,9 52 Sch 2 136 (100) [1001 [I101 4,0s 4,24 3,9 52 Sch 2 137 (iii) (iii) [ilo] [lrz] S,66 7,32 -15.5 52 Sch 2 13s Ag NaCl, Halit (III) (111) [IIO] [IIO] 2,S9 3,03 4,s 51 Bru I; 51 Joh;

50 Neu 1; 50 Joh 4 139 (110) (110) [lio] [1 io] Zg9 3803 4,s 51 Bru 1 140 (iii) (Iii) [ilo] [iit!] 11,52 10.00 -13.2 52 Sch 2; 51 Wat;

50 Job 4

Phases I Planes Directions Periods [Al 1 ~d.‘-+.C 1 No.

142

145 146 147 148 149 150 151 152 153 154 155

156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173

Substrate Deposit

Ag, kubisch flachenzentriert NaCl, Halit (Fortsetzung)

Ag

& & Ag &

Ag

a-NH&l, Salmiak RbBr, Ot-Fm3m RbBr, Oi- Pm3m KCl, Sylvin

Ag,O, O;-Fd3c

Ag Ag,S, Akanthit

4 CdS, Greenockit

Ag AgAs, C~i-RJ

Ag Ag,Sb, Dyskrasit Au, kubisch flschenzentriert Ag, kubisch flachenzentriert

Au Co, kubisch flachenzentrieit .

Au Cu, kubisch flachenzentriert

Au Fe, kubisch raumzentriert

I Sub- strate I De- Sub-

posit I strate

(100)

(100)

(001) (001)

g:;

;z:; (100) (100) (113) (III) (110) (001) (III)

;:::/ (001) (010) (001) (111) (112)

(111)

(III)

(111)

;::A;

(III) (III)

;E;

(III) (110)

(III)

(100)

(111) (001)

[:I;

[E; (111) (100) (110) (III) (110) (001) (010)

(001) (III) (100) (100) (001) (0001) (IIZO) (0001)

(100)

(III) (001) (100)

[‘::I (iO1)

(100)

\:A:;

[I 001

[1001

PI 01 [1001

[1001 [1001 [1001 [ilO]

[fool r1001 ma [I TO] [I TO] [IO01 [OTI]

[Oil] [OrI]

[IO01 [1001 [IO01 [I iO] [I iO] [II01 [I TO] [I iO] [IO01 [0101 [I TO] [I IO] [IO01

[%t; roo11

De- Sub- De- posit strate posit

[I TO]

[1101

[l.12] [IO01

[IO01 [I101 [IO01 [I 1 Z] [I101 [I 101 [OOII [I IO] [I TO] Ii1001 DO11

ro101 [I 341 roo11 [OOII [I101 [IO.01 [OO * I] [II .O] wo11 [I IO] [1001 WOI [I TO] [I TO] r1001 w101 [OOII Km

4,08

4,08

4,08 3,46 4,08 4,05

-15,i -0,7

4,08 3,87 -5,1 4,08 4,86 19,l 4,08 4,06 -0,s 8,66 7,72 -IO,9 4,08 4,46 933 4,08 4,46 9,3 4967 4,75 1,7 2,88 3936 16,7 2,88 3736 , 1617 4,08 4*75 16,4 8,64 8,40 -2,8

5,77 6,92 19,9 11152 11,57 0,4 4,08 4,89 19,9 4,08 4,89 19,9 4,08 3,47 -15,O 8,64 8,26 -4,4 5,76 6,69 16,1 2,89 2,89 0 2289 2,98 3,l 2,87 2,88 0,3 4,07 4,08 02 4,07 3,54 -13,O 5,76 5,Ol --13,O 2,88 2,50 -13,2 4,07 3,61 -11,3 2,88 2,86 -0,7 2,88 2,86 -0,7

/ 4,07 2,86 -29,7

3398

3,98

l”llDll I,

%

-2,s

-2,s

Ref.

52 Sch 2; 50 Neu I; 49 Mer; 36 Bru 61 Gil; 52 Sch 2; 51 Joh; 50 Neu 1; 50 Joh 4; 49 Mer;. 36 Bm 5ONeu I 50 Neu I; 49 Mer; 31Slo 49 Mer 52 Sch 2; 51 Sch 3 51 Sch 3 52 Sch 2; 51 Joh 52 Sch 2 52 Sch 2 58 Men 58 Men 66 Neu 49 Mer 69 Sch; 63 Sch; 48 Miw 48 Miw 48 Miw 48 M&J 48 Miw GG Neu; 41 Usm G7 Mag 2 67 Mag 2 48 Miw

29Gm 49 Mer 36 Bm 49 Mer; 36 Fin 49 Mer 49 Mer 54Oga 49 Mer 49 Mer 49 Mer; 3G Fin

Nr. Wirt

Phasen Ebenen Richtungen

Gast Wirt Gast Wirt Gast Wirt Gast

174 175 176 177 178

Au, kubisch fhichenzentrier Ni, kubisch flichenzentriert

Au AU

Pt,‘kubisch fllchenzentriert (Au, Cu), kubisch flachen-

zentriert NaCl, Halit 179

150 181 182 183

AU

AU AU Be, hexagonal dichteste

Kugelpackung

NiO, Bunsenit BaTiO,, D$, - P4/mmm BeO, Bromellit

(100) (IIf) (100) (100) (IOiO)

184 (IIZO) ,185 (0001) 186 (0001)

Mg, hexagonal dichteste Mg,Pb, kubisch fllchen- Kugelpackung zentriert

Mg MgO, Periklas

(1 iO0)

(0001)

189 190 191 192

Mg Mg(OH),, Brucit Ba, kubisch raumzentriert BaO, O{-Fmjm

Zn, hexagonal dichteste Kugelpackung

ZnO, Zinkit

193 194 195 196 197 198

(0001) (00~) (111) (loio)

I;:;;/

(ioii) (0001) (IOil) (0001)

(100) (IfI) (100) (100) (loi3)

(loi3) (foii) (0001)

(110)

(IIf)

(0001) (001) (110) (ioio)

(ioii) (ioii) (0001) (ioio) (0001) (0001)

hb- weichung

%

roll1 ro101 2,ss 3.52 22,2 49 Mev [i io] ro101 2,88 3,52 22,2 49 Mer [I iO] P011 2,88 3,52 22,2 36 Fin [i To] [i io] 2,88 2978 -3,s 49 Mer LOI 11 Pl~l 5,76 5,45 - 54 52 Oga: 50 Vu1

;:tij P101 roof1 [21 *O]

[21 -01 [lO*O] [IO-O]

ww

[lO*O]

[lO.O]

;: ii; [00-l]

[21 - 21 [21 * 21 [21 * 21 [IO-O] [Of -01 [lO*O]

;x; WOI roo11 [lO.O]

5876 6,16 69 51 Joh 5,76 6.16 6.9 51 Joh 4,0s 4.18 2,s 64 Fva 2 4.07 3,95 -2.2 63 Mue 7.84 8,10 3,3 59 SC0

[IO-O] 7,84 8.10 3,3 [10.0-J 2,27 2,70 18,9 [IO.01 2827 2.70 1X,9

59 SC0 56 Key 62 Ben: 59 Sco; 56 Key

[I io] 520 4.78 --s,1 53 Nag

[I io] 3,20 2,97 -77,2

[IO-O] 3,20 3913 -2,2 ro101 f4,25 1659 16,4 row 14925 1659 16.4 [OO.i] 4,94 5318 499

[21 * 21 14,20 i0,80 -23,9 pi.21 14,20 IO,80 -23.9 [ii.01 3855 3324 -8,7 [Ol.O] 2,66 3,24 21,s [lO*O] 2,66 3924 21.8 [IO.01 2,66 3324 21,8

66 Geb 2; 66 Neu: 50 Neu I; 50 Cou; 49 Mer 66 Geb 2; 66 New 62 Ben 36 BUY 66 Geb 2; 52 Luc; 48 Hub 52 LUG 52 Luc 52 Luc 50Rae 1 66 hreu 66 Neu; 68 Geb 3: 64 Mey; 62 Ben: 59 Sco; 53 Ehl; 52 Eht; 52 LUG; 51 Joh; 51 LUG: 50 Rae 1: 50 Yan: 49 Mev: 48 Ach; 48 Hub: 33 Fin I

Perioden rLi] Lit.

Phases I Planes Directions _- 1 Periods [A] 1 \d:-2:* No. -I Substrate I Deposit

202

203

204 205

206

207

208

209 210 211 212

213 214 215 216 217 218 219 220 221

222

223 224

225 226 227 228 229 ,230

231

Zn, hexagonal dichteste e-Zn(OH),, D~--P~2~2,2, Kugelpackung

Zn Zn

Zn

Zn

Zn Cd, hexagonal dichteste

Kugelpackung

Cd y-cr,o,, 07-P4132 Cd Cd(OH),, D3,,-Pjml

Cd oc-CdS. Hawleyit Cd j3-CdS, Greenockit

Al, kubisch fhichenzentriert

Al

Al Al Al

-4. Al

CaHPO, .2H,O, Brushit Zn,~O,], .4H,O, Hopeit

(Mn, FeW,(PO,),-4&O, Hureaulith

Zn,(Fe, Mn) [PO,], .4 H,O, Phosphophyllit

Zn,Ca[PO,], .2H,O, Scholzit CdO, Monteponit

Cd, hexagonal dichteste Kugelpackung

In, Dig - 14/mmm

In, kubisch flachenzentriert Sn, Dig - 14Jamd ’ AgMg, 0; - Pm3m

Mg,Si, 0: - Fm3m y-Al,O,, O’-P4132

(0001)

(0001) (0001)

(0001) (0001)

(0001) (0001)

(0001)

(0001)

(IOiO) (IIZO) (0001) (IOlb) (1011) (0001) (IOTO) (1150) (0001) (0001) (0001) (0001) (1010) (Ill)

(100)

[::A;

(III) (1.11)

(III) (001) (001) (III).

(110)

(0%)

(010) (010)

(010) (100)

(100) (100) (100) (III)

;;‘t:; ;:::; (111) (III) (IOIO) (1120) (0001) (III) (0001) (0001) (0001) (0001)

(100)

[E;

(100)

(III) (III) (001) (001) (III)

(110)

[IO.01

[12-O] [IO.01

[II .O] [12-O]

[II .O] [II .O]

[12.0]

[lO.O]

[OO. I] [00-l] [j@Ol [01-O] [21’. 21 [IO-O] [Zi -01 [ZS -01 [lO.O] [IO-O] [IO-O] [IO.01 [OO. I] [I TO]

PO11 plo]

wo11 [IT21

[IlO] [Ti2]

[1001 [1001 [IlO].

[I IO]

De- posit

[I 001

roo11 II1001

wo11 PO1

i3lOl [OOII row [Zl I]

[I181 P211 [Ofl] [Oil] [I 1 Z] [I IO] [21-O] [21-O] [lO*O] [I TO] [IO-O] [lO.O] [IO.01 [II -01

[OW [I IO] [OOII

[OOII [Ii21 [ilO]

[?I01 [IO01 [I101

[I TO]

Sub- De- w”‘~ strate posit %

2,66 I I

2,58 -3,0

695 6,38 -8,2 IO,64 IO,64 0’

5,32 5,03 75,5 .9,26 .9,11 -I,6

5,32 5,08 -4,5 IO,64 1649 -I,4

695 6,61 -4,9

2,98 ~87 -3,7

5,65 6,85 21,2

5,65 469 --17,O 2898 3,31 II,1 kg8 3,31 II,1 3,79 3,84 I.3 2,97 2,96 -0,3 a59 3,Ol 16,2 2,59 3,Ol 16,2 2,97 3,47 16,8 8,88 8,22 -794 8,88 $28 -6,8 8,91 8,28 -7.1

II,22 12,42 IO,7 2987 2997 3,5

.4,05 ,494 22,0

5,6$ 4,58 -1931 4,05 4365 14,8

9,92 9,69 -2,3 2,88 2,83 -1,7 2,50 2,05 -18,O 4,05 4,52 1 I.,6 8,10 7992 -2,2 2,83 2377 -2,l

2,83 2,77 -2,l

Ref.

GG Neu

68 Neu 1,2; 67 Geb 67Geb I; 66 Neu; 64 Geb I 64 Geb I 68 Neu 1.2; 67Geb

66 Neu; 64 Geb 1 GG Neu; 64 Geb I

68 Neu I, 2; 67Geb.

67 Geb 5; 54 Bia; 33 Pri 54 Bia 54 Bia 62 Ben; 52 LUG 52 LUG 52 LUG 68 Geb 2 54 Bia 54 Bia 68 Geb 2 52 LUG 52 LUG 70 Avi 70 Avi 55 Sil

55 Sil 55 Sil 55 Sil

55 Sil

57 Kus 57 Km 49 Cas 64 Mey 66. Neu; G2 Ben; 50 Neu 1; 47 Has 50 Neu 1

.

Nr.

232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 25f 252 253 254 255 256 257 258 259 260 261 262 263 264 265

Wirt

Phasen Ebenen Richtungen Perioden [A]

Gast

Al, kubisch fllchenzentriert a-A&O,, Korund Al y-Al0 . OH, Bijhmit Al a-Al0 -OH, Diaspor Al AlPO,, Berlinit

Al Zn,[PO,], -4 H,O, Hopeit

Al

Al

(Mn, Fe),H,(PO,),~4H,O, Hureaulith

Zn,Ca[PO,],. 2H,O, Scholzit

C, Graphit Au, kubisch flichenzentriert

C As,O,, Arsenolith

C MOO,, Molybdit

C UO,, Uraninit C, Diamant C, Graphit C Ni, kubisch flachenzentriert C Hg Jz, Coccinit C AssO,, hrsenolith C a-Sic, C& - P6,mc C (Mg, Fe),[SiO,], Olivin

Si, Oh-Fd3m Ag, kubisch flichenzentriert Si Al, kubisch fllchenzentriert Si Ge, Oi-Fd3m

Si In, Oi-Fd3m Si Si (dotiert), Oi-Fd3m

Wirt Gast Wirt Gast Wirt Gast

(0001

(010) (100) (ioio (0001 (0001 (010) (010) (010) (010) (100) (100) (100) (100) (ilO) (111) (111) (111) (010) WO) (111) (0001

(111) (010) (111) (0001 (iio) (010) (IiJ) (111)

\;A:; (111) (lfi)

[I 101 [i io] [I io]

[I 001 [IO01 [1fOl

1::; [i io]

;E; [oi i]

r1101 [oi i] [IO-O] [IO.01 [II -01 [12-O] [IO-O] [31 *Ol [lO*O] [i To] [iio] [I io] [I io] [i io] [i iI] [iio] [i io] [i To] [i io] [fool [I io] [I To]

[12.0]

[1001 [0011 [21-O] [21 .O] [OO.l] [fool

;::;;

;::A; P101 P101 ro101 III111 [If01 [I io] [I io]

WO~I Wfl [I IO] [IO.01 [iio]

[IO11 [i io] [12-O]

[II11 [IOf [i To] [i io] [I io] [I 001 [I io] [I To]

2,s3 2.75 -2,s 2,s3 2.86 131 2983 2,S4 0.4 4.04 4.27 5.7 4,04 4,27 5.7

11.41 IO,97 -3,9 II,46 IO,64 -7,2

5.73 5,03 -12,2 Il.46 IO,64 -7>2 4,05 5,o3 24,2 8.60 9,1o 5.5 8,60 9,1o 5.8

22.92 22,19 -3,2 22892 22,19 -3,2

7.35 7.05 -4,s 4,92 5,76 17,1 7,37 7,Sl 60 650 7.51 -S,l 7,38 7,4o 0.3 4.26 3,7o -13.1 7,3S 7.72 4.6 5905 4,92 -2.6 5807 4,9s -1,s 5,05 4,34 -14,i 7,55 7,51 3.4 5,o7 5843 7,l

12,34 12389 4,s IO,14 II,92 1786

3s4 4,0s 6.3 5376 5,66 -I,7 3s4 4,00 42 5343 5,66 42 5,76 5.72 -0,7 3,s4 3,s4 0

Ab- weichung

% Lit.

66 Neu 68 Geb 3: 66 Neu 68 Geb 3; 66 Neu

70 Geb 70 Geb 70 Geb 67 Geb 5 67 Geb 2 66 Neu 67 Geb 2 67 Geb 5 Ii7 Geb 2

67 Geb 5 67 Geb 5

59 con 2 54 Hoc 2

54 Mon 4 54 Mon 4

54 Hoc I 54 Hoc I

67 Hei

52 Gre: 50 Vu1

59 Lon

54 Mon 4

54 Mon 4

67 War

53 Mit 53 Mit

67 .S$G 2 69 Cho 2

68 It0 1 68 It0 1 69 Cho 3 68 K’ra I; 68 Kum I: 65 Tam

Phases Planes Directions Periods [A] No. Sub- De- Sub- Misfit

Substrate Deposit De- Sub- De- Ref.

strate posit ‘strate posit strate posit %

266 Si, O<--Fdgm (Si, As), Oi-Fdjm (Ill) (111) [ITO] [IIO] 3,84 3,85 O,3 70 Rai 2; 69 Gib; 69 Gup; G9 Kra;

267 Si 69 Swa

(Si, B), Oi-Fd3m (Ill) (Ill) [IIO] [IIO] 3,84 3,82 -0,5 70 Rai 2; 69 Tho;

268 69 Ste

(001) (001) . [IIO] [IIO] 269 Si

3,84 3.82 -0,5 (Si, P), Oi-Fd3m

69 Tho (001) (001) [I~01 r1101

270 3,84 3,83 -0,3 69 Tho

(Ill) (Ill) [I IO] [I TO] 3,84 3,83 -0,3 70 Rai 1; 69 Tho;

271 Si (Si, Sb), OE-Fd3m ’ 69 Ste; 69 Swa

(Ill) (Ill) [IIO] [Ii01 3,84 3,86 O,5 69 Ste

272 Si PbS, Galenit (Bleiglanz) (001) (001) [I101 [If01 3,84 4,20 9,4 68 Zem

273 Si CdSe, C$,- P6,mc (Ill) (0001) [TOI] [lO*O] 274

3,84 4,30 12,o 67Kle I (Ill) (0001) [Zll] [IO.01

275 Si 4,43 4,30 -2,9 67Kle I

a-Sic, C&- P6,mc (111) (0001) [ITO] [12.0] 276 Si

3,84 4,34 13,o /?-Sic, Ti - F43m

6G Bie; 64 Bra 1 (001) (001) [I101 r* 001

277 3,84 4,36 13,5 69 Kha

(Ill) (Ill) [ITO] [IIO] 278

3,84 3,08 -19,s 69 Kha (001) (001) [IIO] [IIO]

279 3,84 3,08 -19,s 64BYa2 *

Ge, 0: - Fd3m (Ill) (Ill) [ITO] [ITO]

280 3,84 3,08 -19,8

Ag, kubisch flachenzentriert 64Bra I; 64Bra2

(001) (001) r1001 r1101 281

5,66 5,77 1,9 69 Wue (110) (110) [OOI] [I IO]

282 Ge 5,66 5977 1,9

Si, Og - Fd3m 69 Wue

(111) (111) [I IO] [I IO] 283 Ge

4,00 3,84 -4,0 PbS, Galenit (Bleiglanz)

69 Cho 2 (001) (001) [loo] [1001

284 5,66 5,94 4,9 68 Zem; 66 Dav

(Ill) (Ill) [Ii01 [ITO] 285 Ge

4,00 4,20 CdS, Greenockit

5,O 68 Zem; 66 Dav (110) (IOiO) [Ill] [OO.l] 699 6,73

286 -3,7 66 Dij

(110) (0001) [IIO] [2I.O]

287 4,00 3,60 - IO,0 6G Dii

(Ill) (0001) [112] [Il.01 699 623 288 Ge ZnSe, Stilleit

-IO,9 G7Mag2 (001) (001) [1001 [1001 5,66

289 Ge 5167 0.2

InP, Ti- F43m Ii8 Kam

(111) (Ill) [I TO] [I TO] 290

4,00 4,14 3,5 68 Per; 68 Ho1 I (001) (001) [I101 [I101 4,00

291 4,14 375 68 Per

I’::; (110)

[;P:; WI 5366

292 Ge 5,87 377 68 Per

GaAs, Ti - F43m [211] 694 692 293

-0.3 64 Gab 1; 61 Oka $00) ;:;A; WI wo11 5366 5,65 -0,2 68 Ho1 2; 68 Kra 2;

68 Lig 1; 66 Bob;

294 64 Ric

(Ill) (111) [IIO] [ITO] 4,00 295 Ge

3,99 -0,3 Ga(As, P), T$-FF;F3m

.6G Bob; 64 Ric (001) (001) [IIO] [IIO]

296 4,00 3,97 -0,B 69 Bur 2

(110) (110) [ITO] [Ii01 297

4,00 3,97 -O,% 69 Bur 2 [I TO] [I iO]

298 4,00 3:97 -0,B 69 Bur 2

[Olil [Oli] , 4,00 3,97 -0,s 69 Bur 2

Phasen Nr.

Ebenen Richtungen Perioden [A] Rb-

Wirt Gast Wirt Gast Wirt Gast Wirt Gast weichung Lit.

%

299 Pb, kubisch fhichenzentriert ar-PbO, Lithargit (111) (001) [I iO] [fool 3.50 3997 13.4 66 Neu 300 Pb B-PbO, Massicotit (001) (010) r1001 m11 4.95 4,74 -4,2 66 Neu 301 (001) (001) [loo] [IO01 495 5,4S IO,7 51 Joh 302 Pb Pb,O, Oi-Pn3m (ill) (iii) [lie] [i io] 3.50 3.82 9.1 66 Neu

303 Pb PbO,, D:i-Pnab (001) (100) [loo] roo11 4,95 4894 -0.2 66 Neu

304 Pb ‘PbO,, Plattnerit I:::; ;rr;; ;::i;

[I 001 4895 4397 0,4 66 Neu 305 PO11 3,50 3.40 -289 66 -Tea4 306 a-Ti, hexagonal dichteste TiO,, Anatas (ioir) (001) [Oi .O] [IIO] 2.95 2,65 -10.2 55 Oke

Kugelpackung 307 a-Ti TiO,, Rutil (0001) (100) [lO*O] [OOI] 2,95 2896 093 66 Neu: 55 Oke

308 a-Ti TiO, O:-Fm3m (0001) (1 II) [lo-o] [ol i] 2,96 2,97 0,3 55 Oke

309 a-Ti TiN, Osbornit (0001) (iii) [io.o] [iio] 2,95 3,oo I,7 66 Neu

310 a-Ti Tic, Oi-Fm3m (0001) (ill) [lo-o] [Ii01 2.95 3,07 4,1 66 Neu

311 Nb, kubisch raumzentriert &Nb,O, tetragonal (001) (001) [loo] r1001 3,30 3,3S 23 66 Hin; 66 Neu 312 (012) (012) [loo] II~W 3.30 3,3S 294 66 Hin 313 Nb c-Nb,O, orthorhombisch (001) (001) [loo] [IW 6.60 6,64 036 66 Hin; 66 Neu

314 Nb NbO, Oi-Fm3m (110) (001) [I ii] [I101 2,S6 2.97 3,s 66 Hin; 66 Neu 315 Nb e-NbN, D$,-P6Jmmc (011) (01 io) [ifi] [OO.l] 5,72 5.64 -I,4 66 Neu 316 (Olf) (0001) [loo] [iO.O] 3,30 2996 -IO,3 66 Neu 317 Nb ,%Nb,N, Dj-P312 (010) (0001) [loo] [IO.01 3.30 3.06 -7,3 66 h’eu 31s

;x::; (01 To) [ioo] [IO.01 3.30 3.06 -783 66 Neu

319 Nb b’-NbN, hexagonal (0001) [loo] [IO-O] 3.30 2.97 -IO,0 66 hreu 320

;:::i (olio) [iil] ;;&;I St72 5.55 -3.0 66 Neu

321 Nb: NbC, 0; -Fm3m (ill) [loo] 3.30 3915 -4.5 66 hTeu 322 Nb Nb,C, D’,--P312 (Oil) (0001) [loo] [lO.O] 3.30 3813 -5,2 66 hTeu 323 (oil) (01 io) [loo] [IO-O] 3,30 3813 -52 66 Neu 324 Ta, kubisch raumzentriert Ta,O, orthorhombisch y;; y; ml [IO01 6,62 667 0,s 66 hTeu 325 roo11 W~OI 3,31 3827 -I,2 66 hreu 326 (100) (100) [OIO] roo11 3,31 3.20 -3,3 66 Neu 327 Ta Ta,O, tetragonal (001) (001) [loo] [IO01 3,31 3,36 1.5 66 Neu

32s Ta Ta,N, Di-P312 (011) (0001) [IOO] [lO.O] 3,3f 3905 - 7,9 156 hreu

329 Ta TaC, Oi-Fm3m (012) (III) [loo] [i io] 3831 3,14 -5.1 6G Neu

330 Ta Ta,C, D:-P312 (Oil) (0001) [loo] [lO.O] 3.31 3,09 -6,6 66 Neu 331 (011) (01 io) [oi i] [00-l] 4.65 4,93 6,0 66 hreu 332 As, D$, - R3m As,O,, Arsenolith (0001) (111) [oi .o] [I io] 3,77 3897 5,3 50 Vul; 36 Sei;

30 Spa; 03 Mue 333 Sb, D$, - Rjm NaCI, Halit (ill) (ill) [iio] [ii01 3.99 4.50 12,s 51 Joh: 50 Jok 4

Phases Planes Directions Periods [A] No. Sub- De- Misfit

Substrate Deposit Sub- De- Sub- De-

% Ref.

strate posit strate posit strate posit

334 Sb, Dt,-Rjm As,O,, Arsenolith (0001) (111) [IO.01 [I iO] 8,60 7,85 --8,7 54 Mon. G

335 Sb Sb,S,, Antimonit (0001) (100) [21-O] [OIO] II,18 II,30 I,1 59 Sco; 48 Ach

336 Sb AgFe,S,, Sternbergit (1011) (010) [OT *O] [OOI] I%90 12,70 -I,6 50 vu1 337 Bi, Dz,--Rjm PO, Oh-Pm3m (0001) (11.1) [IO.01 [IIO] 4,54 469 393 37Sei I

338 Bi NaCI, Halit (111) (111) [TIO] [IIO] 6,72 7,98 l&7 51 Joh; 50 Joh 4

339 Bi RbCl, 0; - FmSm (111) (111) [IIO] [ilO] 6,72 655 --2,5 51 Joh; 50 Joh 4

340 Bi KCl, Sylvin (111) (111) [IIO] [IIO] 13,44 13,35 -0,7 51 Joh; 50 Jdh 4

341 Bi As,O,, Arsenolith (0001) (111) [IO.01 [I IO] 9,06 7981 -13,s 54Mon4.

342 Cr, kubisch raumzentriert Al, kubisch flachenzentriert (110) (100) 343

[I IO] ww 4,21 4,04 -4.0 52 Hea (110) (311)

;:ii; 344 [Ol i] 5,78 5,72 -I,0 52 Hea

(111) (100) 345 Cr

WI 4,21 4,04 -4,0 42 Oli Au, kubisch flachenzentriert (110) (111) KJo11 [I TO] 5,78 5976 -0,3 52 Hea

346 Cr a-Cr,O,, Eskolait (011) (0001) [ITI] [lO*O] i98 496 -0,4 GG Neu 347 Cr CrN, Og-Fm3m (011) (001) [Ol I] r1001 4,04 4,41 92 66 Neu 348 MO, kubisch raumzentriert Al, kubisch flachenzentriert (111) (100) [I 1 T]

349 [I101 5,89 5,72 -229 36 Bru

(110) (110) 350 MO

[I 111 [I TO] 5,89 5,72 --2,9 3G Bru Mo,O, O%-Fm3m (011) (001) [Ol I] [1001 4,45 4,86 92 6G Neu

351 MO or-ZnS, Sphalerit (Zinkblende) (001) (001) [loo] [loo] 6,30 5,43 -13,s 68 Gal 1 35i MO Mo,N, 0: - Pm3m (011) (00fj [Ol I] [1001 4,45 4,17 -6.3 66 Neu 353 MO MoN, D& - P6,/mmc (011) (0001) [loo] [12.0] 9,45 9,91 4,9 6G Neu

354 MO GaAs, Ti--Fq~rn (111) (110) [I 1 i] row .5,89 5,65 -4,l 64 Ami

355 MO y’-MoC, D$, - P6Jmmc. (011) (0001) [loo] [IO.01 3,15 2,93 - 7,O 6G Neu

356 MO /I-MO&, D& - P6,/mmc (Ol?) (0001) [loo] [lO.O] 357

3,15 3,OO -4,s 615 Neu

(01.1) (01 IO) [Ol I] [OO* I]

358 4,45

W, kubisch raumzentriert 4,73 6,3 G6 Neu

Cu, kubisch fhichenzentriert (110) (111) [I TO] 359 w

[I 1 Z] 4,47 4,44 -0,7 69 Mos Cs, kubisch raumzentriert (001) (001) [IO01

360 [I 001 6732 6,0t3 -3,s 36 Sei

(001) (001) [I101 361 W

[I101 4,47 4,30 -3,s 36 Sei Pt, kubisch flachenzentriert (001) (110) [I101

362 W WOll 4,47 3,92 -12,3 G9 Jow

Ti, hexagonal dichteste (110) (0001) [OOI] [I2.0] 363

3,16 2,62 --17.1 3G Sei Kugelpackung (110) (IOIO) [OOI] [12.0]

364 W 3,16 2,62 -17.1 3G Sei

WO,, DX - P4,/mmm @II) (100) [Ol I] WI 01 4,47 4,84 8,3 66 Neu 365 W oc-ZnS, Sphalerit (Zinkblende) (001) (001) r1001 [I 001 6,32 5,43 -14.1 G8 Gal 1

366 W WN, D& - P6,/mmc (011) (0001) [loo] [IO.01 3,16 2,89 --8,5 66 Neu

367 W W,N, D;---P312 (011) (0001) [loo] [lO.O] 3,16 2,89 --a,5 GG Neu

368 W GaAs, Ti--F43m (111) (011) [I li] [1001 5,47 5,65 393 G4 Ami

c

1 K?LP S’f 1 4TlLP E’O 1 ‘w 19 2%

uw z9 S1i- ua% ZP S’Z- wxz9 ‘

bf ua% 69 kw h9 .9’Z- faiv f f

:I nWH 95 .‘%d Lr; :%a% z9 .‘v7 f 9

.‘nalv 99 :l 93 89 S’f

uaa 6~ .Ws fs :$d L5 :naN 99 Vz

fw 8t-, .Wv 99 v’ I

F’HLP i’0 20H L9 1’0 20HLP 9‘S

1 429 L9 s'f 1 43L9 E’O-

L wL9 S‘f / VnH95 O’L-

I nw 0s z‘o

1 nalv 05 S '0 hi 65 L‘L-

naN 99 6‘0

nalv 99 Z’L

naN 99 P’O-

nalv 99 P’S naLv 99 P‘S naN 99 P‘S - nahr 99 ti’S - z”s LS S‘ff

96’2 9Y’Z rorr1 roor1 (LOO) (LOO) wvds-ad-xv “o’(a~ ‘!N)+I aa-” LGE 1sz 9S’Z [orrl [oorl (LOO) (LOO) wvk-o!N “Oz(Q ‘W)!N aa-w 96f ~6’2 9S’Z [OIL1 [OOLI (LOO) (LOO) llau!ds;-aa-um ‘DO”(ad ‘UJQ) ad-w S6f LS‘L L SL’Zb [orrl ror_r3 (I&L) (Lb11 ~6f LS’L 1 Sb’Z1 [or11 Lob11 (52i) E6f 16’~ LS’Z [or11 EL001 IT::! z6f 16’~ LS‘Z bl-II IL001 (ObL) I:::! 16f 6E’s r9’s roor1 IIoorl 000) (LOO) 06f

16’~ 1S’Z b LO3 r1001 (OOl) (ooi) *gar.l%ly 'Q"ag ad-w 68f

Pb’Z LSZ Lot11 [oorl (LOO) ~yaqZIq,q ‘Qya~-A as-w SSE 16‘~ LS‘Z r0.r rl Loo rl ( tooo) I:$ ~!~W.UkWH ‘“O%~-W ad-w 1Sf Pl’9 El‘9 [c)-O~l [EZEI (SIZE) Pl‘9 Cl’9

Z’ E3 [ZEfl (ESCL) Iz;

9s SSf

LP‘P 9O’P * [Ol Ll (rr10) (Iii) pxloBaxaq ‘"#ad-p ad-w PSE 16’~ 9S‘Z COLLI Loo11 (LOO) (too) IIauIds-+ad ‘pOz(~3 ‘a&d ad-W ESf SS’Z 9S’Z [or11 [oorl (LOO) (LOO) IIau!ds-o3 ‘pOco3 ad-w ZSE

rpaguaz 16’~ 9S‘Z [OLII l-00 rl (LOO) (too) IIau!ds-ad-o3 ‘pOz(03 ‘a&o3 -unm q3s!qnq ‘as-w LSE ZO’P 9O’P t-oorl [O&L1 (LOO) (100) uxf “a-!@ ‘.$1 ad-w OSE LO'P 90% [oorl [or11 (LOO) (LOO) paguazuatpgp yxqny ‘ngr ad-w 6Lf

waypa SO‘ti 9O’P Loo Ll [olrl (LOO) (LOO) pappuazuaq3gJ qmqny ‘2iv -uInz~ qmqny ‘ad-23 GE i70’6 6L’b [o*orl [OLOI (rooo) (LOO) I-S!3 ‘O’H zxq-~~a ‘1 llf OS’E LP’E CO! rl [0011 OLL) (2LO) ~f%I-;o ‘xl n-A 9Lf IS’E LP’E [oorl [oorl (LOO) (LiO) umWPI-?:a ‘%-I n-d SLE 68‘17 1-637 [oorl hrol (LOO) (LIO) urfLq-!jO 'Nn n-4 Plf ZE’S 16’~ [ootl [I iol (LOO) (LiO) mfLq--‘40 ‘ZNn +.xap~uazuunm ymqny ‘n-L ELE Ll’P LP’P [r-o01 [Olbl (OIOL)

I:::! Zlf

66‘Z 9l’f [KJOI (oror) Ilf 66’Z 9L’f tE; [ I001 ( rooo) Olf 66’z tiZ’Z lo:obl II01 ,I (moo) I:::; Z L fd - ;a. ‘Dim-” pap~uaztutm qmqny ‘M 69f

‘7!1

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Sub- tie- Misfit .

Substrate Deposit % Ref.


398 a-Fe, kubisch raumzentriert FeO, Wiistit (Ool) (001)’ [loo] [II01 2,X7 3,04 5,9 G6 Neu; 57 Cal; 56 Haa 1; 54 Ben; 52 Bar; 51 Bar; J 50 Neu I; 49 Mer; 46 Ben; 36 Sei

399 (001) (001) [loo] [100-j S,61 658 -0,3 54 Ben 400 ,. (011) (001) [loo] [loo] S,61

:z --OJ3

54 Ben; 4G Ben 401 : (110) (110) [OOI] [OOI] 8X31 > -0,3 50 Neu I 402 (110) (110) [OOl] [ilO] 2,S7 3,04 5,9 57 co1 403 (110) (111) [OOI] [TIO] 2,87 3,04 5,9 57 Cal; 46 Ben 404 ” (001) (001) [I101 [OIO] 4,06 4,29 5,7 ’ 62 Ben 405 or-Fe S-Co N D,1:-Pnmn 2 , (011) (0’10) [loo] [OOI] 2,S6 2,S5 --0,3 67Geb I 406 a-Fe y’-Fe,N, 0: - Pm3m yy; y;; [I 101 [I g 4,04 3x79 -6,2 54 Pin 407 [I 001 I31 11 2,S6 2,68 -6,3 67Geb I 408 or-Fe. e-Fe,N, D: - P6,22 (Oil) (0001) [ITI] [lO.O] 496 4,67 -5,s G7Geb I

409 or-Fe e-Fe,N, D;-P3l2 (011) (0001) [loo] [IO.01 2,86 2,76 -3,5 67Geb I

410 or-Fe CaHPO,. 2H,O, Brushit (001) (010) [loo] [loo] 5,73 5,89 2,s G8 Neu I, 2; 67 Geb 2

411 a-Fe Zn,(PO,),.4H,O, Hopeit (100) (010) [OIO] [loo] II,20 IO,64 -5,O 67 Geb 3; 66 Neu 412 (100) (010) [OOI] [OOI] 5,60 5,03 -IO,2 62 Neu 3 413 or-Fe (Mn, Fe),H,(PO,),~4%Q (001) (100) [210] [OOI] 9963 9,51 -I,2 G8 Neu I, 2; 67Geb I

Hureaulith 414 or:Fe Zn,(Fe, Mn)[POJ,.4H,O, (100) (100) [OIO] [OIO] 5,60 5,08 -993 615 Neu; G4 Geb I, 2 415 Phosphophyllit (100) (100) [OOI] [OOI] II,20 10949 -6,3 67 Geb 3 416 a-Fe Zn,Ca[PO,], e 2 H,O, Scholzit (001) (100) [210] [OOI] 6,42 6,61 G8 Neu I, 2; 67Geb I 417 a-Fe Fe,(PO,), . SH,O, Vivianit (011) (010) [I II] im11 4,97 4,70 -;:: G8 Geb I 41s (011) (010) [lli] [loo] 9,94 IO,08 1,4 68 Geb I 419 a-Fe Fe,%, 0: - Pm3m (001) (001) [log y; 5,60 5,65 0,9 68 And 420 a-Fe, Ferrit y-Fe(C), Austenit I;;;; I;;;; [;:;j 4,06 4,50 10,s 55 Hof 421 [I zg] 7,03 6,87 -2,3 62 Pit I 422 (Oll) (1 Tl) [I111 [I101 4,97 5,19 4,4 G2 Pit 1 423 a-Fe Fe&, Cementit?) I;;;; [y;;; [;‘I:; ;;y;; 4,97 4,53 .-s,9 67 Maz ‘424 : 4397 5,os 22 67 Maz 425 (110) (IOI) [II21 IIlOll 7,03 S,l3 15,6 67 Maz 426 (101) (001) [Ill] [loo] 4,97 4,53 -S,9 56 Oke 427 y; y;; w;;; r1001 4,06 4,53 11,6 67 Maz; 53 Pet 428 [1001 4276 4,53 -4,s 53 Pet 429 . (III) [I101 [I Sl] 12,lS 13,Ol 623 52Tvi 1;52Tri4 430 (121) [OOI] [IOT] 8,61 s,13 -5,6 54 Roy: 52 Tri I

1) Metkxisch: Cohenit.

Phasen Nr.

Ebenen Richtungen Pcrioden [A] Rb-

Wirt Gast Wirt weichung

Gast Wi* Gast Lit.

Wirt Gast %

431 u-Fe, Ferrit (Fortsetzung) Fe& Cementit (001) y; iI~~O1 Plfl 4.06 4,23 52 Tri 1 432 (001) [loo] [IO1 ] S,61 8.13 -;:2 52 Tri 1 433 (loo) (iii) [ooi] [loi] 8,61 8,13 - 596 54 Roy 434 a-Fe Fe,Mo,, kubisch raumzentriert (I IO) (I io) [I io] [I I I] 4,06 429 57 51 Gei 435 y-Fe, kubisch flachen- a-Fe,O,, Haematit (III) (0001) [lie] [lo.01 5.13 5304 -1,s 69 Go1

zentriert 436 y-Fe y-Fe,O,, Maghemit (112) (001) [4ii] [loo] 7,7o 8,34 833 69 Gal 437 y-Fe. Austenit Fe& Cementit (Ill) (100) [522] [ooi] 696 6975 -3,o 42 Arb: 41 Arb 438 y;‘, (010) y:j [IO01 492 4953 ’ -77,9 42 Arb: 41 Arb 439 (001) [OIOI 5,15 508 -I,4 42 Arb; 41 Arb 440 (iii) (100) [ii21 [ooi] 6.67 6875 62 Pit 2 441

12 (iii) (loo) [llo] [oio] 5,15 5908 -I,4 62 Pit 2

442 (594) (100) 12x51 [OOI] 696 6975 -3,0 62 Pit 2 443 (554) (100) [II01 [OIOI 5.15 5,O8 -I,4 62 Pit 2 444 y-Fe a’-Fe(C), Martensit (Ill) (011) [loi] [iii] 5.14 5,o7 -I,4 55 Hof 445 (III) (110) [I io] [I ir] 5.14 5,o7 -I,4 62 Bog 446 (112) (110) [I io] [I iI] 5,14 5,o7 -I,4 62 Bog 447 (loo) (110) ;;;A; [I iI1 5,14 5307 -1.4 62 Bog 448 (110) (III) [I ii] 5.14 5,o7 -I,4 62 Bog 449 (100) (100) [032] [021] 6,55 6.50 -0,s 62 Bog 450 Co, kubisch flichenzentriert COO, 0: -Fm3m (100) (100) [OOI] [Oll] 8.62 9,os 5,3 66 Neu 451 (100) (100) [OOI] [OOI] 4,3o 4.25 -I,2 62 Ben; 57 Co1 452 (110) (110) [OOI] [OOI] 4,3o 4.25 -I,2 61 Gos; 57Col 453 (loo) (ill) [oil] [ilo] 3,o4 3,oo -I,3 62 Ben; 57 Co1 454 (III) (III) [ilo] [ilo] 3,o4 3,00 -1,3 57 co1 455 u-co Co,O,, Co-Spine11 (110) (110) [I To] [lio] 3,o4 3,00 -la3 61 Gos 456 B-Co, hexagonal dichteste COO, Og - Fm3m (0001) (111) [II -01 [IIO] 3,o4 3,00 -I,3 63 Lub

Kugelpackung 457 p-co Co,O,, Co-Spine11 (0001) (111) [ii-o] [lie] 6,o3 5,74 -4,s 66 Neu: 62 Ben;

58 New 458 Ni, kubisch flichenzentriert Ag, kubisch flichenzentriert (001) (001) [1001 [IW 3,60 4,08 13,3 61 Sl~i 459 (001) (Ill) [Ilo] [iio] Z58 2,89 61 Shi 460 Ni

12,o Au, kubisch fllchenzentriert

;::;; ;Yi:; ;:z; ;;z; 3,6o 4307 61 Shi

461 13,l

2858 2,ss II,6 61 Shi 462 Ni Cu, kubisch flachenzentriert (001) (001) [1001 [IO01 3,6o 3861 0,; 61 Shi 463 Ni Pd. kubisch flichenzentriert (001) (001) [loo] [loo] 3860 339 8.1 61 SAi 464 Ni A&N&, D”, - P6,22 (001) (loio) [llo] [ol.o] 3,74 4,o3 7s 61 Shi 465 Ni NiF,, D:{-P4,/mnm (001) (110) [loo] [lio] 3.52 329 -6,5 67 Riw 466 (001) (110) [IOO] [OOI] 3952 3,12 -II,4 67 Rizv 467 Ni NiO, Bunsenit (110) (001) [IIO] [IIO] 2958 2,90 12,4 66 PuH: 57 Cal

E3 *

No. Phases

Substrate Deposit

Planes Directions Periods [A] Sub- De- Sub- De- Sub- De- Misfit Ref.

strate posit strate posit strate posit %

468 Ni, kubisch flachenzentriert NiO, Bunsenit (100) (100) [OOI] [Oll] 3,60 2,90 -19,4 64 Ale; 61 Gos; (Fortsetzung) 57Col

469 (001) (Ill) [IIO] [II01 2,58 2,90 12,4 62 Ben; 57 Cal; 57 Pig

470 (110) (110) [OOI] [OOI] 3,60 4,ll 14,2 62 Ben; 57 Col; 57 Pig

471 (Ill) (111) [IIO] [ilO] 2,58 2,90 12,4 62 Ben: 57 Co1 472 (100) (111) [Oll] [I121 5,09 5,03 -I,2 66Neu 473 (Ill) (111) [IIZ] [Ti2] 4,41 5,03 14,l 66Nezl 474 (110) (110) [IIO] [ITO] 2,5X 2,90 12,4 66 Neu; 62 Ben;

57 Pig 475 ;E; [YE; [I101 [I101 2,58 2,90 12,4 66 PuH 476 [I TO] [I IO] 2,58 2,90 12,4 66 PuH 477 Ni N&S,, Heazlewoodit (111) (1 TO) [I121 WI 4,41 4,08 -7,5 67 Per I 478 Ni N&N(I), OA-Pmjm (001) (001) [IO01 [IO01 3,52 3,72 5,7 67 Aug 479 Ni Ni,N (II), tetragonal (001) 480 (001)

y;; [1001 [IO01 3,52 3272 5,7 67 Aug [IO01 wJ11 7,04 7,28 394 67 Aug

481 Ni N&N, D: - P6,22 (III) (0001). .[TlO] [IT.01 7,46 7,96 67 67 Aug 482 Ni N&C, D: - P6,22 (111) (0001) [IOI] [IO*01 5,09 4,55 -IO,6 57iVag; 54 Oke 483 Pd, kubisch flachenzentriert Ag, kubisch flachenzentriert (001) (001) [1001 [1001 3.89 4,08 4,9 61 Shi 484 Pd Au, kubisch flachenzentriert (110) (110) [I TO] [I TO] 2975 2,88 4,7 49Mer 485 (001) (001) [1001 [IO01 3,89 4,07 4,6 61 Shi 486 Pd Cu, kubisch flachenzentriert (110) (110) [ITO] [IT01 2775 2,55 -7,3 49 Mer 487 1100) (100) [OOI] [OOII 3,89 3,61 -7,2 61 Shi; 49 Mer;

?6 Fin 488 Pd &-Fe, kubisch raumzentriert (100) (100) [O~ll wo11 2,75 2,86 4,O 49 Mer 489 (110) (100) [ITO] [OOII 2,75 2,86 4,O 49 Mer; 36 Fin 490 Pd Ni, kubisch flachenzentriert (001) (001) [loo] [IO01 3,89 3,59 -7,7 61 Shi 491 Pd PbPd,, kubisch (001) (001) [IIO] [loo] 8325 8,02 -2,s 61 Shi 492 Pd Pb,Pd,, hexagonal (00’) (OllO) [IIO] [lO*O] 5,50 4,47 -IS,7 61 Shi 493 Pd Pd,Al,, hexagonal (001) (lIO1) [OIO] [II *o-j 3,89 4,22 85 61 Shi 494 Pd PdO, D:h-P4,/mmc (110) (100) [I101 PI01 5350 6971 22,0 50 Neu I 495 (001) (001) [1001 II1001 3,89 3,03 -22,1 49Mer 496 (110) (100) [TIO] [0101 2,75 3,03 IO,2 49 Mer 497 Pt, kubisch flachenzentriert Al, kubisch flachenzentriert (001) (001) [1001 [1001 3,94 4,04 2,5 54 Roy: 36 Sei;

33 Fin I 498 (III) [I IO] [I TO] 2,76 2,65 -4,0 49 Mer; 33 Fin I 499 pt Au, kubisch flachenzentriert (III) [I TO] [I TO] 2,76 2,88 4,3 49 Mer

I Phasen I Ebenen ?.T- I Richtungen I ~e~oden [Al I . ..-fi$+-- I IYI.

500 501

Wirt Gast Wirt

Pt. kubisch fllchenzentriert Co, kubisch flichenzentriert (110) Pt Cu, kubisch flichenzentriert (110)

502 Pt

503

504

505

Pt Pt Pt

506 Pt

507

508

509

510

Pt Pt Pt Pt

Gast Wi* Gast

3894 3,94

555

4830 9.1 3.61 -S,4

5,62 1.3

3,92 3,52 -10.2

3.94 3,84 -2,s 2.76 2,72 -I,4

2,76 2,56 -7,2

552 551 -0,2

5,56 6.38 14,7

3891 3,48 -II,0

3,92 4,20 7,l

I LIC.

PO~I WI

[21-O]

my r1w [lO.O]

[IO.01

11 001 [I 001 [IO01 [II01

[:i:;

(0001) [I io]

(110) [OOI]

(001) [loo]

(0001) [I io]

I I (oobl) [I io]

49 M.37; 36 Fin 64 Mer; 49 Mer; 36 Fin 49 Mer

49 Mer; 36 Fin 50 vu1

50 vu1

49 Mer

69 Tak 50 vu1

50 vu1 50 vu1

Mg, hexagonal dichteste Kugelpackung

Ni, kubisch flichenzentriert Ir, kubisch fllchenzentriert (Ir, OS, . .) , Iridosmium. hexago

nal dichteAe Kugelpackung Zn, hexagonal dichteste

Kugelpackung Bi,Ti,O,,, C$- Fmm2 (Pt, Pd, Ni)S, Braggit PtS, Cooperit PtAs,, Spenylith

(001) (001) (001) (001)

[II01 II~~Ol [IW r1001

2.1.2 Legierungen - Alloys

511 (Cu. Al), kubisch flichen- 512 zentriert 513 CuAI,, D:i-U/mcm

Cu,Al,, Ti - P43rn

(Fe, Co), kubisch raumzentriert

Cu,,,,Zn,,,,, P-Messing

(Cu. Al), kubisch fllchenzentriert

Co(Co, Fe),O,, Co-Fe-Spinell

Cu, kubisch flHchenzentriert

Cu,,,-,,,,Zn,,,-o,.SI a-Messing cu,o, Cuprit cu l,o-o.ssZno.o-o,ra ZnO, Zinkit

(100) (110) (001)

(001)

(110) (110) (001) (001) (001) (110)

/A;:;

(110) (110) (112) (0001)

[iFi/ (001) (001) (III) (0001) (001) (0001) (0001)

(010) (010) (100)

(100) (0001) (0001) (0001)

[fool [iio] [1001

r1w

[Ill1 [I111 [IO01 [I io] [II01 P.JOll [I101 [oi i]

P011 [I io] [I To] [lO*O]

;4:;; [1001

[I101

[I101 [II .O] [1001 [II SO] [II -01 r1001 WO~I WI

P101 [IO.01 [IO-O] [IO.01

8,lO 8,70 794 53 Tak 5,73 6.16 7,5 53 Tak 605 7,14 18,O 53 Tak

514 3,56 2,97 -16,6 63 Lub

5.77 512 -II,3 577 510 -II,6 3,69 4,27 15,7 522 6,48 24,l 522 6,4S 24,1

II,06 IO,64 -3,s 5,22 5303 -3,6

IO,44 9851 --5,9

52 Tak 52 Tak 54 Tak 62 Ben 62 Ben; 54 Tak 68 Geb 2; 66 Neu 68 Geb 2; 67Geb I 67 Geb 5

22.12 22.19 0,3 68 Neu I, 2; 67 Geb I 5,63 5,90 4,s 69 Kit 5,63 St90 4s 69 Kit 2,80 2,95 5,4 69 Kit

515 516 517 51s 519 520 521 522

523 524 525 526

Cu~,o-odno.o-o.45 Nb-60 Ti-5 Zr, kubisch ;aum-

zentriert Nb-60 Ti-5 Zr, hexagonal

Zn,(PO,),.4H,O. Hopeit

(Mn,Fe),H,(PO,),.4H,O, Hureaulith

Zn,Ca[PO,], .2H,O, Scholzit Ti, hexagonal dichteste

Kugelpackung 7.:

Phases Planes Directions No.

Substrate

527 a-(Fe, Ni) (Ni-arm), (Fe, Ni, Co),P, Schreibersit (210) (110) [OOI] [OOI] 861 886 2,9 50 vu1 Kamazit

528 or-(Fe, Ni) (Ni-arm) FeS, Troilit (110) (0001) [OOI] [12.0] 287 2,98 3,8 50 vu1 529 (100) yp’ [OW W~11 5,74 5,69 --0,9 50 vu1 530 a-(Fe, Ni) (Ni-reich), Taenit a-(Fe, Ni) , Kamazit (111) [I TO] [I 111 2,54 2,48 -2,4 50 vu1 531 (Ni, Ti) , kubisch flachen- Ni,Ti, Daltonid (111) (0001) [ITO] [IO.01 2,52 2,55 12 52 Tay

zentriert I 532 TiAl(NiCr),, OA-Pm3m Ni,Ti, Daltonid (111) (0001) [IIO] [ll.O] 5,03 5,10 I>4 57 Bag 533 a-CuPd, kubisch raum- /?-CuPd, OA--Pm3m (100) (113) r3111 [1001 9,92 9,87 -0,s 36 Sei

zentriert

2.2 Halogenide - Halogenides

2.2.1 Fluoride - Fluorides

534 LiR,Oz--Fm3m Ag, kubisch fkichenzentriert (001) (001) [I101 [Ii01 2,85 2,88 1,1 63 Cap: 56 Goe; 52 Neu 3

535 LiF Al, .kubisch flachenzentriert (111) (111) [ITO] [IIO] 2,85 2,86 o,4 49 Rho 1 536 (001) (001) r.1101 r1101 2,85 2,86 o,4 56 Goe; 49 Rho I 537 LiF Au, kubisch flachenzentriert (001) (001) [IIO] [I101 2,85 2,88 I,1 56 Goe

538 LiF As; Dt,-Rgm. (001) (110) [I101 [I TO] 2,85 2,80 -I,8 63 Gap

539 LiF Cu, kubisch flachenzentriert (001) (001) [1001 [1001 4,03 3,61 -IO,4 63 Cap; 56 Goe

540 LiF or-Fe, kubisch raumzentriert (001) (001) [IO01 r.1101 4,03 4,06 o,7 67 Mei 541 (110) (111) [OOI] [I101 4,03 4,06 017 67 Mei 542 LiF Pd, kubisch flachenzentriert (001) (O?l) iI r.1101 2,85 2,75 -3,s 56 Goe 543 LiF CsBr, 0: - Fm3m (001) (001) [loo] [loo] 4,03 4,3o 67 51 Sch 2 544 LiF CsCl, 0; - Fm3m (001) (011) r.1001 [1001 4,03 4,lO 177 51 Sch 2 545 y; I;;;; I3101 [OIOI 4,03 4,lO 1,7 51 Sch 2 546 LiF Cs J, Oi--Rm3m Cl 001 [IO01 4,03 4356 ’ 13,2 51 Sch 2 547 (001)

g:; COlOl [0101 4,03 4,56 13,2 51 Sch 2

548 LiF NaCl, Halit @Of) [1001 [1001 4,03 5964 40,o 56 Lue 549 (001) y;; [I101 iI 5,70 5,64 -I,1 56 Lue 550 (001) r1101 [I 001 5,70 5,64 -I,1 56 Lue 551 LiF KBr, OE-Fm3m (001) (001) [lOOI [1W 4,03 3,30 -18,1 56 Lue 552 (001) (001) [I101 [loo] 2,85 3,30 153 56 Lue 553. (001) (011) [llO] [loo] 2,85 3,30 15,8 56Lue 554 LiF KJ, Oi-Fm3m (001) (001) [loo] [loo] 8,06 7,06 -12,4 56 Lue 555 (001) (001) [Ilo] [loo] 7,06 5970 23,9 56Lue

_ Phasen Ebenen Richtungen Perioden [ii] Ab-

Nr. Wi* Gast Wi* Gast

weichung Wirt Gast

Lit. Wirt Gast %

556 LiF, OP,- Fm3m (Forts.) KJ, OP,-Fm3m (001) (011) [IIO] [loo] 5.70 7,06 2389 56 Lue

557 LiF LiCI, OP, - Fm3m (100) (100) [OOI] [OOI] 4,o3 5,14 27,s 56 Lue

55s LiF KCI, Sylvin (001) (001) [loo] [loo] 4,o3 3,15 -21.8 56 Lue 559 (001) (001) [IIO] [loo] 2385 3,15 10,s 56 Lue 560 (001) (011) [IIO] [loo] 2S5 3,15 10,s 56 Lue 561 LIF TlBr, Oi-Fm3m (001) (011) [loo] [loo] 4,03 3.95 -1.2 51 Sch 2

562 LiF TlJ, Oi-Fm3m (001) (011) [loo] [loo] 4.03 4919 4,O 51 Sch 2

563 LiF NaF, Villiaumit (001) (001) [loo] [loo] 4.03 4,63 1489 56 Lue

564 LiF BaCeO,, C& - P2,/m (100) (100) [OOI] [OOI] 4.03 4,3s 587 63 Mue

565 LiF BaSnO,, Ok-Pm3m (100) (100) [OOI] [OOI] 4.03 4,13 2,s 63 Mue

566 LiF BaTiO,, D:,, - P4/mmm (100) (100) [OOI] [OOI] 4,03 4,Ol -0,s 63 Mue

567 LiF Cu,O, Cuprit (001) (001) [loo] [loo] 4803 4.26 587 63 Cap 568 LiF Li UO D,?,“, - Fmmm 2 41 - (III)

;::i; [II01 P~OI 5,70 5.13 -IO,0 63 Ret

569 (111) [II21 [loo] 7,40 6,06 -IS,1 63 Ret 570 LiF NaXbO,, Lueshit (100) (100) [OOI] [OOI] 4.03 3,9O -3,2 63 Mue

571 LiF CaTiO,, Perowskit (100) (110) [OOI] [OOI] 4.03 3.55 -4,s 63 Mue

572 LiF SrSnO,, Cz, --2,/m (100) (100) [OOI] [OOI] 4.03 4,03 0 63 Mue

573 LiF SrTiO,, Ok-Pm3m (100) (100) [OOI] [OOI] 4,03 3,93 - 2,s 63 Mue

574 LiF WO,, DIh -P4/nmm (100) (100) [OOI] [OOI] 4,03 3.91 -3.0 63 Mue

575 NaF, Villiaumit Ge, Oz-Fd3m (111) (111) [I iO] [i ii] 9s3 9,Sl -0,2 62 5’10

576 NaF Ti, hexagonal dichteste (001) (loi2) [llo] [oi.o] 3,27 2,95 -9,s 65 Am Kugelpackung

577 NaF NaCl, Halit (001) (001) [loo] [loo] 4,63 5,64 21,s 56 Lue

578 NaF LiCl, 0: - Fm3m (001) (001) [loo] [loo] 4,63 Sal4 II,0 56 Lue

579 NaF LiF, Oi-Fm3m (001) (001) [loo] [loo] 4,63 4,03 -13,o 56 Lue

sso NaF [UO,(OH),], Ianthinit (100) (100) [loo] [OIO] 13,s9 13,7s -0,s 63 Ret 5Sl (100) (100) [OIO] [loo] 4,63 4,2S -786 63 Ret 552 (110) (100) [loo] [OIO] 13.S9 13.75 -0,s 63 Ret 5S3 (110) (100) [IIO] [OOI] 13,lO 12,S4 -2,0 63 Ret 5S4 NaF PbS, Galenit (Bleiglanz) (001) (001) [IO01 [1001 4,63 5892 27,9 67 KLe 5 555 (001) (001) [IIO] [loo] 655 5,92 -9,6 67 Kle 5 5S6 NaF fi-CdSe, Cadmoselit (001) (0001) [IIO] [lO.O] 13,OS 12,90 -1.4 67KLe 1 5S7 NaF BaTiO,, D$, - P4/mmm

g::; ;:::i [1001 [IO01 4,63 4,00 -13,6 63 Mue

558 [IO01 [I101 4,63 5,66 22,2 63 Mue 559 NaF (UO,),.(K,Na),O.3H,O, (111) (001) [IIZ] [loo] 11834 II,17 -1,s 63 Ret; 56 Neu

Clarkeit

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Sub- Misfit

Substrate Deposit De-

% Ref.

strate posit strate posit strate posit -

590 NaF, Villiaumit &JO,), - (KNa),O ’ 3 H&k (111) (001) [IIO] [OIO] 6,55 6,68 zo G3 Ret; 61 Maa; (Fortsetzung) Clarkeit 56 Neu

59’ KF, Carobbiit K, kubisch raumzentriert (001) (001) [1001 [1001 5,34 5,34 0 68 Bou

592 KF K,UO,, Dig-14/mmm (Ill) (013) [OIT] [loo] 13,23 13,02 -1,6 Ii2 Ret

593 MgF,, Sellait MgO, Periklas (010) (TIO) [OOI] [ill] 6,14 7,29 18,7 68 Bor 3 594 (“0) y; row Cfl21 6,14 10732 68,1 68 Bor 3 595 (120) iwl [llll 614 7,29 18,7 68 Bor 3 596 (120) yy; wo11 r1121 921 lo,32 12.1 G8 BorP 597 CaF,, .Fluorit Ag, kubisch flachenzentriert (“1) [I TO] [l TO] 3,86 2,88 --25,4 66 Aw 3; 63 Cap;

50 Neu I; 39 Es; 37 Rue;

598 (“1) (“1) [I TO] [Zli] 11,58 9,99 -13,7 37 Rue 599 CaF, Al, kubisch flachenzentriert (‘1’) (“1) [I iO] [l ii] 3,85 3,51 -8.8 51 Wil; ‘49 Rho I

600 CaF, As, Did- Rjm (“1) (“1) [I IO] [I TO] 3,85 3176 -2,3 G3 Cap

601 CaF, Au, kubisch flachenzentriert (“1) (“1) [I IO] [l ii] 3,85 3,53 --8,3 50 Neu I; 37 Rue

602 CaF, Ge, O&FdSm y; (“1) [I IO] [I TO] 3,86 3.96 236 GG So; 63 Bb; 62 Sk 603 (“1) [I IZ] [I TZ] 6,68 694 3,9 64 Sch I; G3 Pun;

59 Mar 604 CaF, Pt, kubisch flachenzentriert (1”) (“1) [I IO] [I IO] 7,72 8,28 7.3 63 Cap 605 CaF, Pd; kubisch flachenzentriert (Ill) (111) [IIT] [I iZ] 9,45 9,52 0,7 50 Neu I; 37 Rue

606 CaF, Sb, Did-- R3m (Ill) (111) [ITO] [ITO] 3,86 4,31 11,7 63 Ca$ 607 CaF, se, D~-P3121 (“1) (1121) [ITO] [II-O] 3,86 427 lo,6 65 Hea

608 CaF, Ti, hexagonal dichteste (Ill) (0001) [‘IO] [lo-o] II,55 II,80 2,2 65 Am; 49 Me, Kugelpackung

609 CaF, NaCI, Halit (111) (Ill) [ITO] [ITO] 3186 3,99 3,4 G7 Kle 3

610 CaF, NaF, Villiaumit y; y'li [If01 p; 3,86 4,63 19,9 Ii7 Kle 3 611 [I101 3,86 327 -15,3 67 Kle 3 612 CaF, LiBr, 0: - FmSm (“1) (“1) [I IO] [I TO] 3,86 3989 88 49 Mer

613 CaF, L&l, 0: - Fmjm (111) (111) [ITO] [ITO] 3186 3,64 -5,7 49 Mer 614 CaF, LiF, 02 - Fm3m (“1)

;:;:j [I TO] [1001 3,86 4,03 474 67 Kle 3

615 (“1) [Oil] [1001 3,86 4,03 4,4 G7 Kle 3 616 (“1) (“0) [IOT] [lOOI 3,86 4,03 4,4 G7 Kle 3 617 (“1) (“1) [I TO] [l TO] 5,79 5,70 -I,6 67 Kle 3 618 (“1) (“1) [ii21 [I TO] 13,37 14125 6,6 G7 Kle 3 619 1;;;; ;p;; [TlOl p; 3,86 4,03 4,4 67 Kle 3 620 [IO11 7,75 8,06 4,0 67Kle3 621 (“1) (00’) [0111 [IO01 3,86 4,03 4,4 67 Kle 3

Phasen Nr.

Ebenen Richtungen Perioden [A] Ab-

Wirt Gast Wirt Gast Wirt Gast weichung Lit.

Wirt Gast %

622 CaF,, Fluorit KBr, OP,-Fm3m (Ill) (001) [IIO] [loo] 623

3,86 3,30 -1435 67 Kb 3 (111) (111) [I io] [i io]

624 CaF, 3,86 4-67 2130 , 67 Kle 3: 49 Mer

KJ, Oi-Fm3m (1 ii) (001) 625

[1 ro] [loo] 7972 7906 -8,s 67 Kle 3 (111) (Iii)

626 CaF, [I io] [I io] 7,72 7,50 -2,8 67 Kle 3

NaBr, 0; - Fm3m 627

(111) (001) [ilO] [loo] 5979 5,92 2,2 67 Kle 3; 49 Mer (III) (111) [lie] [lie]

628 3,86 4.18 8,3 67 Kle 3

(Ill) (ill) [ii21 [iio] 629 CaF,

13,37 12.54 -6,2 67 Kle 3 MgF,, Sellait (001) (010) [loo] [IOI]

630 CaF, 5,46 ‘5978 5,9 68Bor3

KCl, Sylvin (III) (111) [Ii01 [iio] 631

7,72 8,83 14,4 67 Kle 3; 63 Cap (III) (Ill) [lie] [ilo]

632 CaF, 7.72 8,83 i4,4 67 Kle 3; 49 Mer

As,O,, Arsenolith (ill) (111) [ii01 [rio] 7,70 7881 I,4 70 Cad: 68 Cad;

633 CaF, Cu,O, Cuprit 54 Molt 6, 7

634 (Iii) (411) [iio] [lie]

CaF, 7,69 6,03 -21,6 63 Cap

SiO,, Quarz (loo) (ioii) [OOI] [oi.o] 635

5,46 4,91 -IO,1 50 Vul; 03 Mue (100) (ioio) [ooi] [00-i]

636 5.46 5.40 -I,1 50 vu1

(100) (1120) [OOI] [00.1-J 637

5,46 5.40 -I,1 50 vu1 (100) (0001) [OOI] [Oi.O]

638 546 4,91 -IO,1 50 vu1

(loo) (loiz) [ooi] [oi -01 639

5,46 4,91 -IO,1 50 vu1

640 CaF, (100) (1121) [oil] [Ii.01 3.86 4,26 IO,4 50 vu1

CaSO,, Anhydrit (111) (001) [iii] [ioo] 9345 9933 -1.3 67 Kle 2 641 CaF, PbS. Galenit (Bleiglanz) (100) (100) [OOI] [OOI] 5,46 5,94 8,8 64 Str I 642 CaF, B-Cd Se, Cadmoselit (Iii) (0001) [iio] [Ii-o] 3,86 4.30 ii,4 67Alt 643 (iii) (0001) [loi] [lo.o] 3,86 4.27 lo,6 68 Alt; 67 AU:

644 67 Kle 2

645 (Ill) (0001) [zii] [lo-o]

CaF, 6,65 6,41. -366 67 Kle 2

CuFeS,, Chalkopyrit (Kupfer- (I I I) (412) [i io] [I io] 646

3,86 3,7f -3.9 50 vu1 kies) (001) (001) [loo] [loo]

647 CaF, 5,46 5,25 -3.8 50 vu1

HgS, Cinnabarit (001) (010) 648

[llO] [loo] 3,86 4815 735 64 Str 2 (001) (010) [iio] [ooi]

649 CaF, II,58 12,70 9,7 64 Str 2

FeS,, Markasit (001) (100) [loo] [OOI] 5846 5,42 -0,7 \ 50 vu1 650 CaF, Fe&, Pyrit (001) (210) [iOO] [iOO] 5,46 541 -0,9 61 Str 2; 50 Vu1 651 CaF, B&S,, Wismutglanz (Bismu- (110) (010) [001-j [lOOI 10892 II,13 189 50 vu1

thinit) 652 653 CaF,

(110) (010) [lil] [OOI] 3,85 3,97 3,f 50 vu1 ZnTe, Ta - F43m (111) (lil) [i io] [i i Z] 14,41 14897 3,9 69 Ho1

654 CaF, GaP, T,?, - F43m (111) (Ill) [rio] [iio] 3.86 3,85 -0,3 70 Cho 655 CaF, GaAs, Ts - F43m (111) (ill) [I io] [i To] 3,86 4,13 7,0 64 Ric 656 CaF, FeCO,, Siderit (iii) (ooor) [rio] [ii-o] 3,86 4,71 22,o 50 vu2

No.

657 658 659 660 661

662

663

664

665 666 667 668

669

670

671 672 673 674 675 676 677 678

679.

680 681 682 683

Phases I Substrate Deposit

CaF,, Fluorit

CaF,

CaWO,, Scheelit

CaUO,, Dti i Pnma

BaF,, 02 - Fm3m Ge, Oi-Fdjm BaF, se, Dj-P3,21

BaF, .NaCI, Halit BaF, KBr, 0: - FmSm BaF, KJ, Og-FmSm

BaF, LiF, O:-Fm3m

BaF, NaBr, 0: - Fmjm BaF, KCl, Sylvin BaF, NaF, Villiaumit

BaF, /?-CdSe, Cadmoselit

BaF, ZnTe, T&F;Csrn Cu, (OH) 3F, hexagonal Cu(bH) 2, Dt{ - Cmcm Na,AlF,, Kryolith Na,SO,, Thenardit

NaCa[ AIF,] l H,O, NaCa[AlF,] .H,O, Pachnolith Thomsenolith

684 NaCI, Halit .

Planes Sub-

strate

;z::; (“1) (“1) (‘1’) (“1)

(“1) (“1) (‘1’) (“1) (“1) (“1) (“1) (1”)

(“1) (“1) (“1) (“1) (“1) (“1) (“1) (“1) (1010)

(00’) (‘0’) (“0) (“0)

De- posil

(0’0) (O!O) (“‘1 (“1) (“1) (1121

(“1)

(“1) (00’) (“1)

;::A;

(“1)

(“1)

IE; (“0) (0001 (0001 (0001 (0001 (“1) (0’0) (00’) (‘00) (00’) (“0)

Directions Sub-

strate

[1W r,1001 CllOl l-2111 [I IO] [I IO] [I IO] [I IO] [I TO] [I IO] [I IO] [I IO] [I IO] [I TO] ‘I TO] :I IO] QlZ] =I TO] IO1 I] IO1 T] ‘IIZ] 11 TO]

:01-o]

I’ 001 :0101 :w !w

2.2.2 Chloride - Chlorides

Ag, kubisch flachenzentriert (00’)

De- posit

[0011 [1001 [If01 PI 11 [I IO]

[IT.01

[I iO]

[I TO]

[1001 [I IO]

;:::3 [I TO]

[I TO]

[I 001 [IO01 [I101 [II -01 [IO-O] [II -01 ~10~01 ellz] :loo]

p1 1 001

zllo] :I TO]

(00’) r1101

I I [IO01

- I Periods [A]

Sub- De- strate posit

IO,09 11,38 546 5,24 3,86 3987 6,68 6370. 4,38 4,02

4938 4,30

4,38 3,99

4,38 4,67

8,76 7,06 4938 5,02 4,38 4,03 4,38 4,03

4,38 4,22

4,38 4,44

4,38 4,62 4,38 4,62 7,59 6,56 4,37 4,30 4,38 4930 4,38 4,30 7,59 8,60

13.11 14,97

3,12 2,95

IO,94 9,77 5,62 5,86

12,12 II,81 12,12 It,81

3,98 4,08

Misfit %

12,8 -4,0

0,3 0,3

-8,2

-I,8

-8.9

66 --19,4

14,6 7&o -8,0

-3,7

1,4

::: -13,6

-I,6 -1.8 -1.8

13,3 14,2

-5>4

--IO,7 4,3

-2,6 -2,6

T Ref.

50 vu1 67 Kle 2; 50’ Vul; 63 Ret 63 Ret 64 Sch I

67 Hea

67Kle3

67 Kle 3

67 Kle 3 67Kle3 67 Kle 3 67 Kle 3

67 Kle 3

67 Kle 3

67 Kle 3 67 Kle 3 67 Kle 3 67 Lud 67Kle I 67 Lud 67Kle I 69 Ho1

64 Osw

54 Roy 54 Roy 50 vu1 50 vu1

2,5 63 Cafi; 5? Rei: 52 Neu 3; 51 Wat: 61 Gil

J

ivr. , 1 Richtungen 1 Pcrioden [ii] 1 i\jJ- 1 _ ._ Phasen Ebcnen

Wirt t

Gast I

Wirt ’ I I- I I .Lllz.

685

. NaCI, Halit (Fortsetzung) Ag, kubisch fllchenzentriert (001)

Gast Wirt Gast Wirt Gast welcnung

%

(001) [1001 [IO01 $46 8,16 -3,s / 69 Sha 2; 69 Nag; 69 Oga: 69 Sch: 64 Jau: 64 Har I; 63 Cap: 62 Pap; 57 Cal; 56 Goe; 55 Oga: 54 Gas: 53 Eng: 51 Wil; 50 Neu I; 49 Mer; 41 And: 39 Got; 36 Bru; 35 Las: 61 Gil 69 Nag: 64 Sel: 62 Pap: 51 Bru f 69 Nag; 64 Sel; 62 Pap; 55 Oga; 5fBrzc2;50Neuf 61 Gil; 49 Mer 61 Gil; 36 Bru 50 Neu 1; 49 Mer 50 Neu 1 36 Bru 36 Bru 36 Bru 69 Nag 64 Har 1: 64 Jau: 64 Sel; 62 Pap, 56 Gee: 51 Wil; 50 Neu 1; 49 Rho f 5f Wil; 49 Rho f 64 Har 1: 64 Jau; 64 Sel: 50 Neu 1 69 Oga: 64 Mer: 49 Mer; 36 Bru 36 Bru 68 Ger; 68 Mih: 67 Ino; 64 Har 1; 64 Jau; 64 Sel: 62 HUG; 59 Con f,2. 56 Obe; 49 Mer; 36 Bru

686

687

688 689 690 691 692 693 694 695 696

697 698

699

700 701

NaCl Al, kubisch fllchenzentriert

NaCl Au, kubisch fllchenzentriert

(110) (110) [0011 wo11 8,46 8,16 -3.5

(III) (III) [I io] [lie] 5,97 5,78 -392

(110) (100) (001)

;Eii:;

(If21 r1101 [lie] 5,97 5.78 -3,2 (III) [I101 [rio] 5.97 5.75 -382 (III) [1001 [lie] 5,64 5.78 2,s (III) ro101 p:$ 564 5,11 -984 (Ill) [i To] 5,97 5.7s -3,2 (221) [I101 [I iO] 5,97 5975 -3.2 (221) r1001 [iio] 5.64 5,7s 2,s (III) [IO01 [Ii21 5.64 5,11 -9.4 (100) m11 [0011 5,64 4.04 -2S,4

(110) roo~l l-0011 5864 4,04 - 28,4 (111) [0011 [I iO] 5864 5,72 I,4

(III) r1101 [I io] 7.95 8,58 7.5

(Ill) [I To] [iio] 7.98 8.58 7,s (III) r1 I(‘1 [I io] 7,95 8.64 s,3

2 Inorganic-inorganic

epitaxies 27

Gebhardt

INeuhaus

Phasen Ebenen Richtungen Perioden [A] Ab- Nr. weichung Lit.

Wirt Gast Wirt Gast Wirt Gast Wirt Gast %

730 NaCI, Halit a-Co, kubisch fllchenzentriert (001) (001) [loo] [loo] 5.64 5.31 -5s.9 62 Pap; 57 Cal; 50Neu I:36 Bru

731 (001) (001) [IIO] [loo] 3,98 3.54 -II,1 62 Pap; 57 Cal; 49 Me? 732 (110) (110) [OOI] [OOl] 5964 5,31 -55,9 57Col 733 (ill) (Iii) [ilo] [iio] 7896 7,51 -577 57Col 734 NaCl a-Cr, kubisch raumzentriert (100) (100) [OOI] [OOI] 5.64 5,76 &I 64 Jau; 64 Sel;

62 Pap: 51 Wil; 49 Mer: 36 Bru

735 (001) (001) [IIO] [OIO] 5,97 5,76 .--3,s 62 Pap: 50 Neu 1; 49 Mer; 36 Bru

736 (III) (ill) [iio] [ii21 3,98 3,52 -11,6 62 Pap 737 (Iii) (Iii) [Ilo] [iio] 3,98 4.07 283 62 Pap 738 (001) (011) [olo] [oi i] 8,46 s,14 -3.5 50 Neu I; 49 Mer;

36 Brzc 739 (001) (ill) [ilo] [ii21 3.98 3,52 -Ii,6 49 Mer 740 (001) (210) [IIO] [OOI] 5.97 5,76 -3;s 62 Pap: 49 Mer 741 NaCl Cu, kubisch flgchenzentriert (001) (001) [loo] [loo] S.46 722. --14,7 64 Har I; 64 Jau;

64 Sel; .63 Cap: 62 Pap: 61 Cap 2: 56Goe;55Oga; 50 Neu I; 49 Mer: 36 Bru

742 (001) (001) [IlO] [loo] 3.98 3961 -9,3 64 Har I; 64 Jau: 64 Sel: 63 Cap: 62 Pap; 61 Cap 1,2; 550ga

743 (001) (001) [IIO] [OIO] 7.96 722 -9.3 50 hTeu I: 49 Mer; 36 Bru

744 (Ill) (Iii) [lie] [iio] 5,97 5,fO -14,6 55Oga 745 NaCl u-Fe, kubisch raumzentriert (001) (001) [loo] [IIO] 5,64 6.09 8,O 69 Shi I; 66 Hea;

66 Ski I; 64 Sel: 63 Cap: 62 Pap; 61 Cap3;57 Col; 52 Tri I; 50 Neu I: 49 Mer

746 (001) (001) [loo] [loo] 5364 5,74 198 69Shi 1; 68Geb I; 66 Hea; 63 Cap; 64 Jau; 62 Pap: 61Cap 3;57 Col; 49 Mer: 36 Bru

Phases Planes Directions NO.

Periods [A] : Sub- De- Sub- Misfit

Substrate Deposit De- Sub- De-

% Ref.


747 NaCl, Halit (Fortsetzung) or-Fe, kubisch raumzentriert (111) (111) [Ii01 [II21 748

3,98 3,52 -II,6 62Pap (111) (111) [IIO] [ITO]

749 3,98 4,06 2,o G2 Pap

‘.. (110) (110) [OOI] [OOI] 750

\ 5,64 5,74 1,s G2 Pap (110) (110) [liO] [I TO]

751 3,98 4,06 2,0 62 Pap

: (110) (III) [I IO] 752 ;

[II01 3,98 4,06 G2 Pap (110) (111) [OOI] [II21

753 ’ II,28 f&56 -2: 62 Pap

(111) (111) [TOI] [IOI] 754

3,98 4,06 210 62 Pap (111) (111) [IIO] [Zll]

755 3,98 3,52 -II,6 G2 Pap; 57 Co1

(111) (111) [IOI] [I@] 756

3,98 3,52 -II,6 62 Pap; 57 Co1 (001) (111) [TIO] [IIZ]

757 I 3,98 3,52 -11,6 57 Col; 49 Mer

(001) [:;;; [loo] [I121 ,11,28 IO,56 758 ’

-6,4 57 Cal; 49 Mer (110) m11

759 [IlO] 5,64 609 80 57 co1

(111) (110) [IIO] [OOI] 760

5,79 5,74 -0,9 57 co1 (110) (010) [OOI] [IOI]

761 5,64 609 &O 3G Bru

(001) (110) [loo] [Ii01 5,64 762 NaCl

609 80 Ge, Oz--Fd3m

49 Mer; 3G Bru (001) (001) [loo] [loo] 5,64 5266 0,4 64 Jau: G4 Bri;

64 Sel: 62 Slo;

763 52 Co1

(001) (111) [llO] [TIO] 764

3,98 4,00 0,5 52 Co1

(001) (111) [I TO] [I IO] 765

3,98 4,00 0,5 G4 Bri; 52 Co1 (001) (011) [loo] [loo]

766 5,64 5,66 0,4 64 Jau

(111) (111) [IIO] [ITO] 767 I

3,98 4,00 0,5 64 Sel; 62 Slo (001) (110) [IfO] [IIO]

768 3,98 4,00 65 64 Bri

(001) (110) [IIO] [OOI] 769

5,64 5,66 0,4 64 Bri (001) (111) [ITO] [Ii21

770 3,98 3,47 -12,s G4 Bri

NaCl (001) (912) r1101 [I IO]

771 3,98 4,00 0,5 64 Bri

K, kubisch raumzentriert (001) (110) [IIO] [lIl] 772 NaCl

9,95 924 -7,i 68 Bou MO, kubisch raumzentriert (001) (001) [loo] [loo]

773 5,64 6,30 11,7 G2 Pap; 49 Mer

y; y;; y;; ro101 774

3,98 3,15 -2039 62 Pap: 49 Mer [Ii21

775 3,98 3,87 -2,s 62 Pap; 49 Mer

(001) (111) [I101 [ITO] 776

3,98 4,46 12,l 62 Pap; 49 Mer (001) (210) [IIO] [OOI]

777 3,98 3,15 -269 49 Mer

(001) (331) [IO01 [IT01 5,64 669 778 NaCl

18~5 1 49 Mer Ni, kubisch flachenzentriert (001) (001) [IIO] [loo] 3,98 3,55 -IO,8 68 Gal 2: 65 PuH;

64 Jax; G4 Sel; 63 Ale; 63 Cap: 62 Pap; 61 Cup 3: 57 Cal: 54 Jah;

., 53 Eng, 36 Bru

Phasen I Ebenen Richtunqen Perioden [ii1 Ab- ...-:rl. .._ _ T :c

779 NaCl, Halit (Fortsetzung) Ni, kubisch fllchenzentriert (001) (001) [IO01 [fool 5864

780 781 782

785 756 787 788 789 790 791 792 793 794 795 796 797 79s 799 500 801 so2 803 804 SO5 So6 807 SO% 809

Wil-t

NaCl Pd, kubisch fllchenzentriert

NaCl Pt, kubisch fhichenzentriert

NaCl Rb, kubisch raumzentriert NaCl Sb, D$-R3m

NaCl se, Di--P&21 NaCl Si, Oi-Fdjm

NaCl NaCl

Ta, kubisch raumzentriert Ti, hexagonal dichteste

Kugelpackung

NaCl Ti, kubisch raumzentriert

NaCl Zr, hexagonal dichteste Kugelpackung

Gast Wirt Gast Wirt Gast Wirt

(III) (001)

(001) (001) (001) (001) (001) (100) (100) (001) (001) (001) (001) (001) (001) (001) (001) (001) (III) (110) (001) (001) (001) (001) (001) (001) (001)

;A;:;

g:; (110) (110) (110) (0001)

(100) (111) (III) (001) (0001) (0001) (0001)

;;;;g;

KP’ (110) (001) (0001) (0001) (0334) (3034) (0334) (O@Ol)

[I To] [I io] 7,96 [II01 [1001 3,98

[1001 [I101 [ilO [If01 r-1001

;:A:; [I io] [iio] [I 001 ro101 [i io] [I101 [I101 [i io] [1001 [i io] WI [1001 [I101 [I io] [I101 [i io] [i io] [IO01

[IO01 [IO01 [i il] [I io] [i io] [lO*O] [OOII [i io] [ii21 III 001 [Ol *O] [01-O] [21 *O] [Ol .O] L42.31 [Ol .O] [i To]

Sri:3 [2l .O] [OI -01 [lO.O] L42.31 [24 - 31 [lO.O]

8,46 3,95 9,95 3.95 S,46 3398 5,64 3895 3,9s 5,64 5,64 3,9S 3,95 3,98 3.98 2,82 4,0s .5,64 5.64 5897 3,98 3,9s FL97 5897 5364

[i io] DO11 DO11

3.98 5264 564

Cast

7,lO 259

5302 26.1 i 7,10 25.9 I 3,89 -31,o

8.35 3,59

7890 -6,6 1 3,95 -0,s

9875 -2,0 4.39 10.3 8,60 1,7 4.36 9,s 543 -3,7 3954 -3.5 3.32 -Ii,6

i 6,62 17.4 5.90 4,6 3,33 -16.3 3,74 -6,0 3833 -1633 4,48 12,6 2,95 4,6 613 502 4D33 -232 4,33 -232 6,07 187 3.23 -IS,8 323 -IS,8 564 -555 5864 -555 6.46 14.5

4#9 --2,3

65 PuH: 64 Jau; 64 Sel; 63 Ale: 63 Cap: 62 Pap: 67 Cap 3; 57 Cal. 54 Jah; 53 Eng; 36 Bru 57 Cal: 55 Oga 65 PuH; 57 Cal 62 Pap; 56 Goe; 55 Oga: 53 Eng; 50 Neu I; 49 Mer: 36 Bru 55 Oga 69 Oga; 62 Pap; 39 For 62 Pap 62 Pap 68 Bou 63 Cap 63 Cap 65 Hea 64 Bvi 64 Bri 64 Bri 67 Cho 55 Oke 62 Pap; 55 Oke 62 Pap 62 Pap 62 Pap 56 Con 69 Waw 69 Waw 69 Waw 62 Pap 62 Pap 65 Den: 62 Pap 62 Pap 65 Den 65 Den

Phases Planes Directions Periods [A] No. _ Sub- De- Sub- De- Sub- Misfit


? Ref.


810 NaCl, Halit (Ag, Al), kubisch flachen- (001) (061) [loo] [loo] II,28 12,18 8,O 53 Goe zentriert

811 NaCl (Au, Cu), kubisch flachen- (001) (001) [loo] [loo] 5,64 5,99 62 540ga zentriert

812 NaCl (Au, Ni), kubisch flachen- (100) (100) [OOI] [OOI] S&4 597 5,9 64 Fra 2 zentriert

813 NaCl AuCu,, kubisch flaclien- (001) (001) [fool [loo] II,28 4125 -0,3 51 Rae zentriert

814 NaCl Cu,Au, kubisch raumzentriert (001) (001) r1101 r1001 3,98 3,75 -5,s 50 Rae 2 815 NaCl (Mg, Au), kubisch raum- (100) (110) [OOI] [lil] 5,64 5,65 092 63 Ver

zentriert 816 NaCl ’ N&Fe, kubisch flachenzentriert (001) (001) [I101 [IO01 3,98 3,57 -IO,3 70 Jau

817 NaCl Fe,Ni, kubisch raumzentriert (001) (001) GllO] r1101 3,98 4,08 Z5 70 Jau

818 NaCl N&Fe, Permalloy (100) (001) [OIlI [loo] 3,98 3,55 -IO,8 66 Ale; 64 Yel; 63 Bal

819 (111) (111) [ITI] [IIO] 4,88 5,06 3,7 66 Ale 820 NaCl AgBr, Bromargyrit (100) (100) [OOf] [OOI] 5,64 5,77 2,3 52 Pas 2; 49 Mev;

52 Tri 2; 31 S-lo; 28 Roy

821 NaCl KF, Carobbiit (100) (100) [OOI] [OOI] 5364 5,34 -5,>3 49 Mer; 36 Sei; 31 Slo; 28 Roy

822 NaCl AgCI, Chlorargyrit (100) (100) [OOl] [OOI] 5,64 5,55 -I,6 52 Pas 2; 51 Job; 49 Mer; 31 Slo

823 (110) (110) [OOI] [OOI] 5,64 5.55 -1.6 52 Pas 2; 51 Joh 824 NaCL CsBr, Oi--Fm3m (001) (001) [loo] [loo] 8,46 8,60 I,7 $1 Sch 2

825 NaCl CsC1, @-Fm3m (001) (001) [loo] [loo] 8,46 8,42 -0,5 51 Sch 2

826 NaCl CsF, 0: - Fm3m (100) (100) [OOI] [001] 5,64 6,02 6,7 36Sei; 28 Roy

827 NaCl CsJ, Oi-Fm3m (001) (001) r1001 r1001 8,46 7.66 -935 51 Sch 2

828 NaCl CuCI, I 2 H,O, Eriochalcit (002) (001) [IIO] [loo] 7,98 7,38 -7,5 59 Kle 3 829 (001) (001) [IIO] [OIO] 7,98 8,04 68 59 Kle 3 830 (001) (100) [loo] [OOI] 11,28 II,19 -0,8 59 Kle 3 831 NaCl CaF,, Fluorit (001) (001) r1001 [I101 5,64 5,79 297 69 Buj 832 (001) (111) r1001 [I 1 T] II,28 9,45 -16,2 69 Buj 833 NaCl KBr, Or!,--Fm3m (002) (001) [loo] [loo] 5,64 6,58 16,7 49 Mer; 36 Sei;

31 Slo; 08 Bar 834 NaCl KJ, Oi-Fmjm (001) (001) iI [1001 5,64 7,06 25,2 49 Mer; 36 Sei;

31 Slo; 08 Bar 835 NaCl Na,AlF,, Kryolith (100) (110) [OOI] [OOI] 5764 5,46 -3,2 56 Shi

Phasen Ebenen Richtungen Perioden [A] Ab- Sr.

Wil-t Gast Wirt I

weichung Lit. Gast Wirt Gast Wirt Gast %

336 NaCl, Halit LiBr, OP,-Fm3m (100) (100) [OOl] [OOI] 5.64 5.50 -2,s 49 Mer; 36 Sei; 31 Slo; 28 Roy

837 NaCl LiCl, 0: -Fm3m (100) (100) [OOI] [Obl] 564 5.14 -s.9 49 Mer; 36 Sei; 31 Slo; 28 Roy

s3s NaCl LiF; Oi-Fm3m (001) (001) [loo] [loo] S,46 S,06 -497 56 Lue: 56 Shi; 54 Bau

539 (001) (011) [IIO] [100] 3.95 4,03 1.3 56 Lue; 56 Shi; 54 Bau

540 (001) (001) [IIO] [loo] 3898 4,03 I,3 56 Lue: 56 Shi; 54 Bau

s41 NaCl LiJ, Oz,-Fm3m (100) (100) [OOI] [001-J 5,64 6,01 66 36 Sei; 28 Roy S42 SaCl NaBr, 0: -Fm3m (100) (100) [OOI] [OOI] 5864 5,97 589 49 Mer; 36 Sei;

3lSlo; 28 Roy; 08Bar s43 NaCl NaJ, O{-Fm3m (001) (001) [loo] [loo] 5.64 6947 14.7 49 Mer: 3l Slo;

08 Bar s44 SaCl NH,Br, OA-Pm3m (110) (110) [iio] [ool] 3,9S 4,06 zo 50 Roy 2; 36 Sei;

30 Spa; 28 Roy S45 (100) (100) [llO] [OOI] 3398 4.06 53 30 Spa; 28 Roy S46 (110) (110) [ooi] [iio] 5,64 5,74 1,s 36 Sei; 30 Spa;

28 Roy 547 (100) (100) [loo] [loo] S,46 8.12 -4,0 49 Mer s4s NaCl NH&l, Salmiak (100) (100) [IIO] [loo] 3,9S 3,87 -2,s 30 Spa S49 (100) (100) [loo] [IlO] 5,64 5,47 -3,o 49 Mer; 30 Spa S50 NaCl NHdj, Oz-Fm3m (001) @Of 1 [IO01 [1001 5,64 724 2S,4 49 Mer; 36 Sei 851 NaCl RbBr, Og-Fm3m (001) . (001) [loo] [loo] 5,64 6,S9 22,2 36 Sei 552 NaCl RbCl, Oi-Fm3m (001) (001) [loo] [loo] 5,64 6,55 16,1 49 Mer; 36Sei;

08 Bar s53 NaCl RbF, Oi-Fm3m (100) (100j [OOII [OOI] 5.64 5&J 0 36 Sei; 28 Roy

s54 NaC1 RbJ, Oz-Fm3m (001) (001) [IOO] [loo] 5,64 7,34 30,1 49 Mer; 36 Sei 555 NaCl KCl, Sylvin (100) (100) [OOI] [OOI] 5,64 6.29 11,s 49 Mer; 36 Sei;

31 Slo; 28 Roy: 27 Roz: 08 Bar

S56 NaCl TlBr, 0: -Fm3m (001) (001) [IOO] [IOO] 5,64 6,5S 16,7 fit Sch 2 557 NaCl TICI, Oi -Pm3m (100) (110) [Oil] [OOI] 3,9s 4,21 5,s 52 Pas 2; 51 Sch 2 s5s (100) (410) [oil] [fro] 5897 5996 -0.2 52 Pas 2: 51 Sch 2 S59 NaCl TIJ, Ot-Fm3m 5364 6.94 23,O 51 Sch 2 S60 NaCl NaF, Villiaumit 5964 4,63 --r7,9 64 Bru; 56 Lue;

56 Shi: 54 Bau: 49 Mev

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Sub- De- Misfit Ref.

Substrate Deposit strate posit strate posit strate posit %

861 NaCI, Halit (Fortsetzung) NaF, Villiaumit (001) (001) [loo] [IIO] 5,64 6,55 16,1 64 BYU; 54 Bau 862 (001) (110) [IO01 WI 5,64 4;63 --17,9 64 Bru; 54 Bau 863 (001) (111) [IIO] [IIO] 3,98 3,28 --17,6 64 Bru 864 NaCl As,O,, Arsenolith (001) (111) [Ii01 [IIO] 7,96 7,81 --I,9 54 Mon. 4 865 (001) (111) [110] [II?.] 7,96 9,04 13,6 54 Mon 4 866 NaCl cu,o, cuprit (001) (001) [1001 p; 8,46 8,60 I,7 63 Cap 867 NaCl Sb,O,, Senarmontit (001) (111) y; 8,46 7787 - 7*0 54 Mon 4 868

g::; (111) [I 1 Z] If,94 l3,64 14,2 54 Mon 4

869 NaCl Ag,S, Argentit (hoch) (001) [IO01 [1001 5,64 6234 12,4 63 Cap 870 NaCl SnS, Herzenbergit (001) (001) [too] [loo] 5,64 5,82 3,2 70 Mik I 871 NaCl PbS, Galenit (Bleiglanz) (001) (001) [loo] [loo] 5864 5,92 ST0 68 Zem; 67 Kle 5;

49 Mer: 48 Eli; 31 Slo

872 (001) (111) [I101 [IIO] 3,98 4,18 5,0 48 El1 873 (110) (111) [IIO] [IIO] 3,98 4,18 5,0 48 El1 874 (111) (111) [II01 [IIO] 3,98 4,18 ,5,0 48 El1 875 (443) (443) [I IO] [I IO] 3,98 4,18 5,0 48 El1 876 (110) (110) [II01 [I iO] 3,98 4,18 5,0 48 El1 877 (001) (001) [II01 [loo] 5997 5,92 -0,8 67 Kle 5 878 NaCl /?-CdS, Greenockit _ (001) (0001) [IIO] [lO.O] 3,98 4,14 4,0 G7 Mag 879 NaCl oc-CdS, Hawleyit (001) (001) [loo] [loo] 5,64 5,82 3,2 G8 Hey I; 67 Cho 880 NaCl /LCdSe, Cadmoselit (001) (0001) [IIO] [lO.O] 3,98 4,30 890 69 Kle; G3 Kal;

69 Ren; 56 Sem 881 NaCl CdSe, Tg--Fq3m (001) (001) [loo] [loo] 5,64 6,05 7,3 GP Kle; 5G Sem;

63 Kal 882 (111) (111) [Ii01 [I~01 3x98 4,27 7,3 65 Ser 883 1;;;; (011) y;; w11 3,98 4,27 7,3 G3 Kal 884 NaCl PbSe, Clausthalit (001) [I101 3,98 4,34 990 M Sem 885 NaCl Pb(Se,Te), Oi-Fm3m (001) (001). [IIO] [IIO] 3,98 4,45 II,8 68 Zem 886 NaCl (Pb, Sn)Se, Oi-FmSm (0011 (001) [loo] [loo] 5,64 6,11 8,3 68 Zem; 67 Str 887 NaCl SnSe, O{-Fmjm (001) (001) [IIO] [loo] 3,98 3,44 -13,6 68 Zem: 67 Str 888 (001) (001) [loo] [loo] 5,64 6,58 1637 70 Mik I; 67 Mar 889 NaCl TlBiSe,, Oi-Fm3m (100) (104) [OII] [OIOI- 5,97 6,18 3,s 63 Man 890 NaCl PbTe, Altait (001) (001) [loo] [loo] 5,64 6,45 14,4 68 SW; 57 Rei 891 NaCl Bi,Te,, Di,--Rjm (100) (111) [OOI] [IIO] 5,64 5,03 -lo,8 64 Fra 2 892 NaCl CdTe, Ti-Fq3m (001) (001) [1001 [IO01 5,64 6,48 14,9 63 Nov 893 (111) (111) [lTO] [ilO] 3,98 4,57 14,8 63 Nov 894 NaCl CdTe, C&- P63mc (III) (0001) [IIO] [Il.01 3,98 4,57 14,8 63 Rum

Nr. Phasen Ebenen Richtungen Perioden [A] Ab-

Wirt Gast Wirt Gast Wirt Gast weichung

Wi* Lit.

Gast %

895 NaCl, Halit EuTe, Ti- F;C3m (001) (001) [IIO] [IIO] 3,98 46.5 16.8 68 SW

896 NaCl GeTe, T,T- Fq3m (001) (001) [loo] [loo] 564 5895 60 69 CJzo 4

897 NaCl (Pb,Eu)Te, Oz-Fm3m (001) (001) [I IO] [I101 3898 4,61 15,s 68 SW

89s NaCl (Pb,Sn)Te, Oi-Fm3m (001) (001) [Ii01 [IlO] 3.98 4.52 1386 68 Zem; 66 Byl

899 NaCl Sb,Te,, Die-Rjm (001) (3054) [lie] [oi .o] 3,98 4.20 5,s 69 Gad 900 I;;;; (0001) [iio] [io-01 3.98 4,20 5.5 69 Gad 901 (0001) [IIO] [lO.O]

NaCl 3.95 4,20 5.5 69 Gad

902 SnTe, Op-Fm3m (001) (001) [loo] [loo] NaCl

5~54 6831 iI,9 70 Mik I 903 ZnTe, Tb- F43rn (001) (211) [110] [oi i] 7.96 g&3 8,4 69 Hoi 904

I:::; /;A;; [lio] [oii] 7,96 8863 s.4 69Hol

905 [1001 [I 001 5,64 6,10 w 69 Ho1 906 (ill) (Ill) [fro] [ii?!] 13,68 14,97 9,4 69 HoZ 907 (001) (ioio) [ii01 [oi.01 3998 4330 s,o 908 NaCl

69 Cko 2 NaNO,, Na-Salpeter (Nitro- (001) (001) [loo] [loo] 5964 649 15.1 54 Roy: 50 Hoc

909 natrit) (001) (001) [loo] [OIO] 5864 649 IS,1 50 Hoc 910 (001) (001) [I201 [loo] 6,31 649 50 Hoc 911

2,9 (001) (001) [I201 [OIO]

NaCl 631 649 50 Hoc

912 2.9

GaAs, Ti-Fq3m (001) (001) [loo] [loo] 5,64 5,65 0.2 68 O’Ne; ‘66 Ste; 60 Sme

913 (001) (111) NaCl

[I101 [211] 7,96 691 -13.2 68 O’h’e 914 GaAs, C&-P6,mc (001) (0001) [lie] [ii-o] 3,95 3,99 68 O’Ne 915

083 (001) (IIZO) [IIO] [OO.l] II,94 -IS,0

916 9,79 68 O’Ne

(001) (2130) [Ill] [OO.i] NaCl

9875 9,79 0,4 68 O’Ne 917 ’ InAs, T$-Fq3m (001) (001) [IOO] [IOO] 5,64 6.05 918 NaCl

7,3 60 Sme I&b, Ti-F43m (001) (001) [loo] [loo] 5,64 6,46 14.5 67 Laf

919 (001) (Ill) [iio] [iio] 3,95 4,57 14,s 67 Laf 920 (001) (111) [Ilo] [ii21 5,97 5928 -II,6 67 Laf 921 (001) (112) [lie] [i io] 3998 4,57 14,s 67 Laf 922 (001) (112) [Ilo] [iii]

NaCl 3998 3,73 -63 67 Laf

923 AgCN, T:-Pq3m (001) (001) [loo] [loo] NaCl

5.64 5999 62 49 Mer 924 KCN, T: - Pq3m (001) (001) [1001 [1001 5864 6.51 IS,4 49 Mer; 31 Sloe;

925 NaCl 08 Bar

NaCN, O%-Fmjm (001) (001) [loo] [loo] 5,64 5,84 3,s 49 Mer; 31 Slo

926 NaCl RbCN, T:-P43m (001) (001) [loo] [loo] 5,64 6,67 IS,3 08 Bar

927 KCl, Sylvin Ag, kubisch ,flichenzentriert (111) (Ill) [tie] [fro] 8.52 S,66 -4,s 64 Har I: 53 Eng: 50 TJii

w +

NO. Substrate

Phases

Deposit

Planes Directions Periods [A] Sub- De- Sub- De- Sub- De- Misfit Ref. strate posit strate posit strate posit %-

928

929 930 931 932

933 934

935

936 937 938

’ KCI, Sylvin (Fortsetzung) Ag, kubisch flachenzentriert (001) (001) [IOO] [IOO] 12,48 12,24 -I,9 69 Jes; 69 Oga: 68 Gal 3; 68 Kat I; 68 Pal; 66 Arr 3; 56Goe; 50 Thi;49Mer

(001) (111) [I101 [ilO] 8,82 8,66 -I,8 49 Mer KC1 Al, kubisch flachenzentriert (001) (111) [I101 [I101 8,82 8,58 --2,7 64 Har I; 56 Goe

(001) (001) [I101 [I101 8,81 8,58 -2,6 69 Oga; 68 Kat I KC1 As, Dz,--R3m (001) (110) [I101 [II01 8,83 8,15 -7,7 63 Cap KC1 Au, kubisch flachenzentriert (001) (001) [IIO] [I101 4,41 5,7g 31,l 69 Oga

(001) (111) [IIO] [IIZ] 4,41 4,98 12,9 69 Jes: 68 Kat I; 68 Pal; 64 Har I; 59 Con I, 2

(001) (001) [I101 [I101 4,41 5,78 31,l. 59 Con I; 59 Con 2; 56 Goe

KC1 Bi, D,5,--Rjm (001) (110) [1001 p; l&58 t&57 -0,l 65 Her (001) y; p; 17,g6 1670 -65 63 Jag

. 939 gi:; [IIO] 17,X6 1670 -65 63 Jag

(001) [I101 [I 101 17,g6 1676 -6,2 63 Jag 940 (110) (TIO) [IIO] [I101 17% 1676 -6,2 63 Jag. 941 KC1 Cu, kubisch flachenzentriert (001) (601) [1001 [IO01 6,24 7,22 15,7 69 Jes; 68 Kat I;

68 Pal; 63 Cap; 61 Cap 2; 56 Goe

942 KC1 a-Fe, kubisch raumzkntriert (III) 943 (001) y; p;

i3011 8,82 8,58 --2,7 50 Thi [IO01 8,82 8,58 --2,7 66 Hea; 63 Cap;

61 Cap 3 944 (001) (001) [loo] [loo] 6,24 5,76 -7,7 66 Hea 945 KC1 Ni, kubisch flachenzentriert (001) (001) [loo] [loo] 6,24 7,20 IS,4 69 Oga; 68 Kat I:

63 Cap; 61 Cap 3; 53 Eng; 49 Mer

946 KC1 Pd, kubisch flachenzentriert (001) (001) [I101 [I101 8,82 825 -6,s 68 Kat I; 56 Goe; 53 Eng; 49 Mer

947 KC1 Pt, kubisch flachenzentriert (011) (011) [loo] [IIT] 629 679 7,9 50 Thi 948 KC1 Sb, D,S,--RSm (001) (110) [loo] [II01 6,24 5,43 --13,0 63 Cap 949 KC1 Ti, hexagonal dichteste (001) (1012) [loo] [Ol*O] 3,12 2,95 - 5,4 65 Arn

Kugelpackung 950 KC1 Hg Jz, Coccinit (001) (010) [I101 [IO11 4,41 4,34 -I,6 54 Min 4 951 KC1 KF, Carobbiit (001) (001) II1001 [1001 6,24 5,34 - 14,4 49 Mer 952 KC1 AgBr, Bromargyrit (100) (100) [OOI] [OOl] 6,24 5,78 -77,4 49 Mer: 31 So;

28 Roy

Nr. Wirt

Phasen Ebencn Richtungen

Gast

953 KCI, Sylvin RgCI, Chlorargyrit

954 KC1 CsF, Ok-Fm3m 955 KC1 NaCI, Halit

956 957 958 959

960 961 962 963

964 965 966 967 968

KC1 KBr, 0: - Fm3m

KC1 KJ, Oi-Fmjm KC1 j(KPbCI,)H,O, C;-Pi

KC1 LiBr, OP,-Fm3m

KC1 LiF, 0% - Fmjm

KC1 LiJ, Oi-Fm3m KC1 KaBr, 0: - Fm3m

969 KC1 NaJ. Og-Fm3m

970 KC1 NH,Br, 0: - Pm3m

971 KC1 NH,J, Ok-Fm3m 972 KC1 RbBr, Oi- Fm3m

973 KC1 RbCI, Ol-Fmjm

974

975

976 977 97s 979 9SO 9Sl 9S2

KC1 RbF, Oi-Fm3m KC1 Rb J. Oi-Fm3m KC1 NH&l, Salmiak

KC1 SnJ,, Tz-Pa3

KC1 As,O,, Arsenolith

Wil-t Gast Wirt Gast

hb- weichung

%

row roof1 6,24 5.55 -11.1

row 6,24 6.02 -3,s DO11 6,24 5.64 -996

[i io]

;$I:3 [1001

[i io] 4,41 3,99 -9.5 PO11 6,24 5,64 -9,6 [OOII 6,24 5864 -9.6 r1001 6.24 6,55 5,o

[I 001 III 001 6.24 7.06 1331 [oi i] [loi] 8.90 9994 If,7 [IIZ] PI01 7,71 7,52 --2,5 [OOII roo11 6,24 5.50 -11.9

[I101 [I 001 [II01

;::A;

[IO01 4,41 4,03 -S,6 [IO01 12,48 12,09 -3,l [1001 4.41 4,03 -S,6 PO11 6,24 6,01 -387 [IO01 6,24 5997 -4,3

r1001 [I 001 6,24 6,47 3;7

[I 001 [I 001 6,24 6.91 IO,7

[1001 [1001 6,24 7.26 16,3 [IW [IO01 6,24 6857 IO,1

roo~l [0011 6,24 6,60 5,s

row [I 001 [I101

;%; III101 [i io] [IO01 [II01

WI 6,24 5,64 -9,6 r1001 6,24 7,34 17,6 [1001 4,41 3,ss -12,o r.1101 6,24 5,4S -12,2 [pool 6,24 7,26 16,3 [i io] 17976 17.29 -2,6 [I 1 Z] 31,13 29,94 -3s [IIZ] 12,4S 13,ss 5s [I 1 Z] 13,23 13,ss 236

-Perioden [S] Lit.

49 Mer: Pt 30; 28 Roy 36 Sei: 28 Roy 50 Vul: 49 Mer: 36Sei;28Roy; OXBar 36 Sei 36 Sei 36 Sei 49 Mer; 31 Sloe; 08 Bar 49 Mer; 36 Sei 37Sei I 37Sei I 49 Mer; 36 Sei; 31 Slo: 28 Roy 56 Lue 5G Lue 56 Lue 36 Sei; 28 Roy 49 Mer; 31 Slo; 08 Bar 49 1Mer; 31 Sb; 08 Bar 49 Mer; 08 Bar 49 Mer; 36 Sei 49 Mer; 31 Slo; 08 Bar 49 Mer; 36 Sei; 31 Slo; 28 Roy; 08 Bar 3G Sei: 28 Roy 49 Mer; 36 Sei 30 Spa 49 Mer 49 Mer 54 Mon 4; 53 Mon 3 54 Mon 4: 53 Mon 3 54 Mon 4 54 Mon 4

No. Substrate

Phases

Deposit



983 KCl, Sylvin a-Fe,O,, Haematit ~ (100) (0001) [Oll] [12.0] 8,90 8,73 -I,9 50 vu1 984 50 vu1

( (111) (0001) [Ol I] [12-O] 890 8,73 -I,9

985 K,Mn,O,,, Kryptomelan

(110) (0001) [ITI] [lO*O] IO,90 10,os -7,s 50 vu1 986 KC1 (110) (100) wo11 DO11 6,24 5,72 -83 62 Sun 987 [I101 [OOII 8,83 S,58 -2,s 62 Sun 988 KC1 Sb,O,, Senarmontit

y;,' ;;yy; [I101 [IIZ] i3,34 13,64 22 54 Mon

989 (001) (111) [I IO] [I TO] 689 7,87 --11,s 54 Mon 990 (001) (111) [loo] [IIZ] 12,58 13,64 8,4 54 Mon 991 (001) (111) [OIO] [I IO] 689 7,87 14,2, 54 Mon 992 KC1 Ag,S, Argentit (001) 6,24 439 -21,6 , 63 Cap 993 KC1 PbS, Galenit (Bleiglanz) (001)

;g;; pi; y;; 6,24 5,97 -4,3 67 Kle 5; 49 Mer;

31 Slo 994 (001) (001) [IIO] [loo] 6,62 5,97 -9,s 67 Kle 5; 49 Mer;

31 Slo 995 KC1 SnS, Herzenbergit (001) (001) [loo] [loo] 6,24 5,82 -6,7 7OMik I 996 KC1 (Pb, Sn)S, O{-Fm3m (001) (001) [loo] [loo] 6,24 5,92 -5,l 67Str 997 KC1 ,9-CdSe, Cadmoselit (111) (0001) [II01 [ll*O] 4,43 -4,30 --2,9 61 Kal 998 KC1 (Pb,Sn)Se, Og-FmSm (001) (001) [lOOI [1001 6,24 6,11 -2,l 67 Str 999 KC1 SnSe, 0: - FmSm (001) (001) [lOOI iI 6,24 6,00 -0 70Mik I

1000 KC1 PbTe, Altait (001) (001) [100] [loo] 6,24 6,46 3,s 66 By1 1001 KC1 CdTe, Ti--F43m (121) (111) [ITO] [IIO] 4,41 4,58 3,9 63 Nov 1002 (001) (001) [loo] [loo] 6,24 6,48 3,s 63 Nov 1003 KC1 - GeTe, Ti-Fqjrn (001) (001) [110] [I101 8,Sl 8,52 -3*3 70 Mik 2 1004 (001) (111) [IIO] [Ii01 8,81 8,28 -6,o 70 Mik 2 1005 KC1 (Pb, Sn)Te, Oi--FmSm (001) (001) [loo] [loo] 6,24 6,42 2,9 67 SW; 66 By1 1006 KC1 SnTe, 0; - Fm3m (001) (001) [loo] [loo] 6,24 6,31 I,1 70 Mik I; 66 By1 1007 KC1 AgCN, C& R3m (001) (001) [loo] [loo] 6,24 5,99 -4,0 49 Me? 1008 KC1 RbCN, T,$---P;Fsrn (001) (001) [loo] [loo] 6,24 6,81 %I 08 Bar 1009 KC1 KCN, TA--PqJrn (001) (001) [100] [loo] 6,24 6,51 4,3 49 Mer; 31 Slo;

08 Bar 1010 KC1 K,Zn(CN),, Oz-Fdjm (100) (100) [OOI] [OOI] 6,24 6,27 0,s 30 S$a; 28 Roy 1011 KC1 NaCN, 02 - Fm3m (001) (001) [loo] [loo] 6,24 5,88 -5,s 49 Mer: 31 Slo 1012 RbCI, O$--Fm3m NaCl, Halit (001) (001) [fool r1001 6,60 5,64 -14,s 08 Bar 1013 RbCl KJ, Oz-Fm3m (100) (100) [OOI] [OOI] 6,60 7,06 7,0 36 Sei; 28 Roy;

08 Bar 1014 RbCl NaBr, 02 - FmSm (001) (001) [loo] [loo] 6,60 5397 -9,s 08 Bar

Nr. T Wirt Gast

1015 RbCl, OP,-Fm3m NaJ, Oi-Fm3m 1016 RbCl RbBr, 0: - Fm3m 1017 RbCl KCI, Sylvin

101s

1019

1020

1021

1022

1023

. RbCl RbCl CsCI, 0, -Pm3m CsCl NH&I, Salmiak NH&l

RbCN, T:-P43m K,Zn(CN),, 0: - Fd3m NH,Br, OA-Pm3m NH&I, Salmiak CsBr, Oi-Pm3m CsCl, Oh-Pm3m

1024

1025 NH&l CoCl, .2H,O, Cg - P&/m

1026 1027

102s I 029 1030 1031 1032 1033 1034

1035 1036

1037 103s

1039 1040

1041

NH&l (Cu,NH,)C1.2H,O, C&--2,/m

NH&l CuCI,. 2H,O, Eriochalcit NH&l FeCl,.2H,O, C&-Pz,/m NH&l FeCI,.2H,O, C$,-Pq/m NH&l MnC1,.2H,O, 6$,-P2,/m NH&l NH,Br, 0: - Pm3m NH&l NiCI, .2H,O, C:, - P2,/m A&l, Chlorargyrit Ag, kubisch flachenzentriert A&l AgBr, Bromargyrit *4gCl Ag(Br,Cl), OP,-Fm3m AgCl @-Ag J, Jodargyrit CaCl, NaCl, Halit

1042 TlCI, Oi-Pm3m AgCl. Chlorargyrit 1043 TlCl TlBr, O,!, -Pm3m 1044 TlCl Tl J, D:i-Cmcm

Phasen Ebenen

Wirt Gast

(001)

;%;

(001) (100) (001) (001) (00~) (00~)

(001)

(100)

(100) (110)

(110)

;:i:; (110)

;:oo:; (001) (001) (001) (001) (001) (001) (111) (100)

(001) (001) (001)

(001) (001) (100)

(001) (100) (001) (001) (001) (110)

(110)

(441)

12:;

I:::~ (100) (110) (100)

I:::;

(00~)

(100)

(001)

(001)

(001) (0001)

(ill)

(001)

(001)

(001)

Richtungen

Wirt Gast T Wirt Gast

Ab- weichung

%

[I 001 [IO01 6.60 6,47 [IW IIf 6,60 6,87 WOfl [OOII 6,60 6.26

-2,0

-;:3

[I 001 r1001 6,60 6.81 3,2

[OW l30~1 12,20 I%57 380

rf 001 r1w 4,lO 4.06 --1.o

[1001 [~001 4,lO 3,SS -544 [1001 [I 001 3,87 4,30 Ii,1

[I101 PO~I s,21 Is,22 O,l

[I io] 5949 5,83 ‘52

ro111

[i io]

[iio] 536 5.53 I,3

f7,27 16,70 -3,3 5.46 5953 I,3

l9w [II01

;Ez; i-1201 l-1201 [I201 [IO01 [I201 [I 001 [IO01 [1001 [i io]

roo11

row [I101

::i; PI 01 [0101 PJ101 [IO01 rot 01 [~OOI r1001 III 001 [II SO]

[I io]

3,86 3898 391 536 5.36 --1,s 3,86 3,9s 321 3,S6 3.95 3,1 St63 s,s5 295 8,63 8,85 2,s S,63 8,75 I,4 3,ss 4,06 46 S,63 8983 2,3 5,55 4,0s -26,s 5,55 5.78 4,1

* 5955 5.67 22 3,92 4,ss 16.8 4,20 3,99 -590

[IO01 l-1 101 3854 3,92 2,f r1001 [1001 3884 3898 3,6

[IW [If01 II,52 11,S6 3,O

Perioden [A] Lit.

08 Bar 08 Bar 36 Sei: 28 Roy: 08 Bar 08 Bar 28 Roy 08 Bar

08 Bar 08 Bar 36 Sei; 28 Roy: 08 Bar 36 Sei; 28 Roy: 08 Bar 56 Neu: 50 Neu f; 41 Neu: 37Neu f 37 hreu f 56 Neu; 50 h’eu I; 37Neu f 37 Neu I: 37 Sei 33 Bun 33 Bun 41 Neu 41 Neu 41 Neu 50 Neu f 08 Bar 50 Neu I; 41 Neu 52 Pas f 49 Mer; 42 Sch I, 2 42 Sch 2 50 Vul; 30 Spa 58 Suz; 55 Suz; 54 Miy 49 Mer; 47 Sch 49 Mer 49 Mer

No. Substrate

Phases

Deposit



1045

1046 1047 1048

1049

1050 1051 1052 1053

1054 1055

5PbC1,. 4Cu(OH),- AgCl 5PbC1,. 5Cu(OH),.0,5H,O, (001) (101) [loo] [OIO] 15,40 14,90 -3,2 30 .?$a: 03 Mue .1,5H,O, Boleit Cumengeit

(001) (001) [loo] [loo] 15,40 14,90 -3,2 50 vu1 (100) (001) [OOI] [loo] 62,00 61,60 -0,6 50 vu1

5PbC1,.4Cu(OH),.AgCl 5PbC1,.4Cu(OH),.2,5H,O, (001) (001) [loo] [loo] 15,40 15,40 0 50 vu1 .1,5H,O Pseudoboleit

5PbC1,.4Cu(OH),.2,5H,O, 5 PbCl, -5 Cu (OH) z. 05 H,O, (001) (001) [loo] [loo] 15,40 14,90 -3,2 50 vu1 Pseudoboleit Cumengeit

KCl- MgCl,- 6 H,O, Carnallit a-Fe,O,, Haematit (001) (0001) [loo] [IO*01 9,56 lo,08 5,4 09 Joh (001) (0001) [IIO] [12*0] 4,67 4,40 -5,8 30S9a (130) (0001) [Oil] [IO*01 5,78 5,04 -12,8 09 Joh (110) (0001) [OrI] [lO*O] 5,78 5304 --12,8 09 Joh (100) (0001) [Oll] [lO*O] 5,78 5,04 -12,8 09 Joh (410) (0001) [Ool] [IO.01 II,28 lo,08 -lo,6 30 @a

1056 1057 1058

1059

1060

1061

1062

1063

1064

1065 1066

1067

1068

1069

1070 1071 1072

1073

2.2.3 Bromide - Bromides

‘- NaBr, Oi--Fm3m a-Fe, kubisch raumzentriert (100) (110) [OOI] [OOI] 5,97 5,74 -3,9 66Hea (100) (If01 RN y; 5,97 6,09 66 Hea

NaBr NaCl, Halit (001) (001) [loo] 5,97 5,64 2:

08 Bar NaBr KBr, Oi-Fm3m (001) (001) [loo] [loo] 5,97 6955 9,7 08 Bar NaBr KJ, Oi-Fm3m (001) (001) [loo] [loo] 5,97 7,06 183. 08 Bar NaBr Na J, OE-Fm3m (001) (001) [loo] [loo] 5,97 6,47 8,4 08.Bar NaBr RbBr, Oi-Fm3m (001) (001) [loo] [loo] 5997 6,87 15,1 08 Bar NaBr RbCl, Oz-Fm3m (001) (001) [IdO] [100] 5,97 6,41 7,4 08 Bar NaBr Rb J, Oi-Fm3m (001) (001) [loo] [loo] 5,97 7934 22,9 08 Bar NaBr KCI, Sylvin (001) (001) [loo] [loo] 5,97 6,24 4,s -08Bar NaBr /3-CdSe, Cadmoselit (001) (0001) [IIO] [lO*O] 4,21 4,30 &I 69 Kle NaBr CdSe, Ti--F43m (001) (001) [loo] [IO01 5,97 6,05 I,3 69 Kle KBr, Oz-Fm3m Al, kubisch flachenzentriert (001) (001) [IIO] [I101 4,65 5,66 21,7 68 Kat I KBr As, Did--Rjm (001) (110) [IIO] [II01 4,63 4,48 -3,2 63 Cap KBr Au, kubisch flachenzentriert (001) (111) [II01 [Ii01 . 4,63 5,76 24,4 59 con 1

(001) (111) [IlO] [I101 4,63 5,76 24,4 59 con I; 59 con 2 (001) (001) [llO] [I101 4,63 5976 24,4 69 Jes; 68 Kat I;

59 Con I; 59 con 2 KBr Bi, Di,-Rjm (001) (110) [loo] [I101 6,55 6,67 123 63 Cap

1074 KBr, Ol:-Fm3m Cu, kubisch flachenzentricrt

1075 1076

1077

107s 1079 IOSO

1051

1052 IOSj 1 OS4 1055 1086 1087 toss lOS9 1090 1091 1092 1093 1094 1095 1096 1097 109s 1099 ~100

Wirt

Phasen Ebenen XT- I I 1 Richtungen 1 Perioden [A] 1 Ab- _ I.

KBr a-Fe. kubisch raumzentriert

KBr KBr

KBr KBr KBr

KBr

KBr AgCI, Chlorargyrit

KBr KBr KBr KBr KBr KBr

KBr

KBr LiJ, O:-Fm3m KBr NaBr, 0: - Fm3m

Gast Wirt Gast Wirt Gast Wirt

Ge, O{-Fd3m Ni, kubisch flichenzentriert

Pd. kubisch flachenzentriert Sb, D&,-R3m Se, D:-P3r21

AgBr, Bromargyrit

CsBr, Oi-Pm3m CsCl, Ok-Pm3m CsJ. Oi-Pm3m NaCl, Halit KCI, Sylvin KJ. Oz-Fm3m

Lilt. OP,-Fm3m

CllOl

[IO01 [I101

r1w

[IO01 [I101 [1001

1~101 [1001 ro1 II [I IO] [0011 roo11 [OOll

;:::; [0011 ml1

:::; roll1 r1001 [I 001 [1001 [1001 [1001 roo11

[lOOI [~I01 r1101

;x;:;

[IO01 6895

[I 001 6,55 [I 00, 9,26

[IO01 6,55

[TIO] 6355 [I101 4,63 [IO01 6,55

l-~~Ol [I IO]

;Kt; [OOi] [I TO] [ilo] [i io] [iio] [OOII [I To] [iio] [I io] [iio] [IO01 [I 001 [IO01 [1001 [IO01 Lm11

4,65 6.55 4,63 4963 6,55 6,55 6,55 9,26 926 6.55 6,55 6955 4,63 4,63 6355 6,55 6,55 6,55 6,55 6.55

13,10 I I 2,09 2,09 -7,7 -7,7 4.63 4,03 4,03 -l3,0 -l3,0 4,63 4.03 4.03 -l3,0 -l3,0 6855 6,01 6,01 -s,2 -s,2 6,55 5897 5897 -s,9 -s,9

Gast I weicnung weicnung Gast 1 % % I

7,22 7,22 3.9 3.9

ut.

7,22 7,22 10.2 10.2 S,61 S,61 -7,0 -7,0

5,74 5,74 -12,4 -12,4

6909 609 - 7,0 - 7,0 4.00 4.00 -l3,6 -l3,6 7.04 7.04 7,s 7,s

5950 5950 IS,3 IS,3 6,76 6,76 392 32 4,95 4,95 6,9. 6,9. 4,35 4,35 -6,o -6,o 5378 5378 -11,s -11,s 6,12 6,12 -6,6 -6,6 6.12 6.12 -6,6 -6,6 s,17 s,17 -11,s -11,s &I7 S,l7 -11,s -11,s 5,56 5,56 --rS,l --rS,l 5,90 5,90 -9,9 -9,9 5890 5890 -999 -999 3.93 3.93 -l5,1 -lS,l 3,93 3,93 -15,l -15,l 7,23 7,23 IO,4 IO,4 6.94 6.94 60 60 7,66 7,66 16.9 16.9 5964 5964 -l3,9 -l3,9 636 636 --2,9 --2,9 7,06 7,06 7,s 7,s

69 Jes: 68 Kat 1 63 Cap 63 Cap 66 Hea; 63 Cap; 61 Cap 3: 49 Mev 66 Hea; 63 Cap: 61 Cap 3; 49 Mer 49 Mer 44 Koe 68 Kat 1; 63 Cap; 61 Cap3 68 Kat I

63 Cap

65 Hea 65 Hea 52 Pas 1; 52 Pas 2 52Pas 1;52Pas2 52Pas 1; 52Pas2 52 Pas 1; 52 Pas 2 52 Pas 1; 52 Pas 2 52Pas 1;52Pas2 52 Pas 1 52 Pas 2 52 Pas I 52 Pas 2 51 Sch 2

51 Sch 2; 08 Bar

51 Sch 2

08 Bar

08 Bar

36 Sei; 28 Roy: 08 Bar 56 Lue 56 Lue 56 Lue 36 Sei; 28 Roy 36 Sei: 28 Roy: 08 Bar

Phases No.

Substrate Deposit Ref. 1 z;iTi;it 1 grtigit gFi”i;ii! Mr

1106 KBr, Oi-Fm3m NaJ, OA-Fm3m [IO01 [1001 6,55 6,47 -I,2 08 Bar 1107 KBr NH,Br, 0; - Pm3m [IO01 [1001 6,55 6991 5,s 08 Bar 1108 KBr NH,J, Oi-Fm3m (100) (100) [001] [OOI] 6,55 7,26 10,s 36 Sei; 28 Roy:

08 Bar 1109 KBr PbBr D,12 - Pnma (001) (010) [I101 PO11 9,26 9,52 2,s 54 Roy: 50 Roy 3 1110 KBr RbBry ’ 0: - Fm3m (100) (100) [OOI] [OOI] 6,55 6,87 4,9 36 Sei; 28 Roy;

08 Bar 1111 KBr RbJ, Og-Fm3m (100) (100) [OOl] [OOI] 6,55 7,34 12,l 36 Sei; 28 Roy:

08 Bar 1112 KBr NH&l, Salmiak 6,55 6,54 -0,2 08 Bar 1113 KBr TlBr, 0; - PF3m 6,55 6,58 0,s 51 Sch2 1114 6,55 6,58 0,s 51 Sch 2 1115 KBr TICI, Oi -Pm3m (100) (110) [Oll] [OOI] 6,95 6,30 -9*4 52 Pas 2 1116 (100) (110) [Oil] [ITO] 4,63 4,45 -3,9 52 Pas 2 1117 (100) (100) [OOI] [OOI] 6,55 6,30 -3,8 52 Pas 2; 51 Sch 2 1218 KBr TlJ, Oi--Fm3m 6,55 6,94 60 51 Sch 2 1119 KBr As,O,, Arsenolith 6,55 7,81 19,2 54.Mon4 1120 6,55 6,77 3,4 54 Mon 4 1121 4,63 3,90 --IS,8 54 Mon 4 1122 4163 4*53 -2,2 54 Mon 4 1123 KBr Ag,S, Argentit (001) (001) [loo] [loo] 6,55 6,34 -372 G3 Cap

1124 KBr SnS, Herzenbergit (001) (001) IIf 001 [IO01 6,58 5,82 -II,6 70 Mik I

1125 KBr PbS, Galenit (Bleiglanz) 6,55 5,97 --8,9 67 Kle 5 1126 4,63 5,97 28,9 67 Kle 5 1127 KBr /?-CdSe, Cadmoselit (0001) [l TO] [II -01 4,65 4,30 -7,s Gl Kal

1128 KBr SnSe, 0: -Fm3m (001) (001) [I 001 [I 001 6,58 6,00 -8,8 70 Mik 1

1129 KBr CdTe, Ti--F43m (111) I;;;; [II01 [IlO] 4963 4,58 -1,l 63Noo 1230 [loo] [loo] 6,55 6,48 -I,1 63Noo 1131 KBr SnTe, Og-Fmjm’ (001) r1001 [IO01 6,58 6,31 -4,l 70 Mik I 1132 KBr NaNO,, Na-Salpeter [1001 [I 001 6,55 6A9 --0,9 54 Roy; 28 Roy 1133 (Nitronatrit) w101 [0101 6,55 6A9 --0,9 28 Roy 1134 KBr InSb, Ti-F43m [loo] [loo] 6,55 6,48 -I,1 G7 Laf 1135 [I TO] [I IO] 4,63 4,58 il,l 67 Laf 1136 (001) (111) [I101 [TiZ] 4,63 5,29 14,3 67 Laf 1137 (001) (114 [l TO] [I TO] 4,63 ’ 4,58 -I,1 67 Laf 1138 (001) (112) [llO] [fill 4,63 5,63 21,6 67 Laf 1139 KBr K,Zn(CN),, Oi--Fd3m (100) (100) [0011 WI 6255 6,28 -4,l 28 Roy 1140 KBr RbCN, Ti-Pq3m (001) (001) [IO01 [IO01 6,55 6,81 4,o 08 Bar

Nr. Wi*

114i RbBr, 0: - Fm3m

1142 RbBr

1143 RbBr

1144 RbBr

1145 RbBr

1146 RbBr

1147 1148 1149 1150 1151 1152

1153 1154 1155

1156

1157

115s 1159 1160 1161 1162 1163 1164 1165 1166 1167

1168

RbBr KCl. Sylvin NH,Br, 0; - Pm3m C&l, OA-Pm3m

NH,Br NaCl, Halit

NH,Br NaBr, Oi-Fm3m

NH,Br NH&l, Sahniak

NH,Br KCI, Sylvin

AgBr, Bromargyrit Ag, kubisch fllchenzentriert

1169

1170

1171

AgBr Ag(Br,CI), Oi-Fm3m

AgBr AgCl, Chlorargyrit

AgBr AgJ, Ta-Fq3m

CrBr,, C$ -RJ NiBr,, D!jd - RSm


Gast

KBr, Oi-Fm3m

KJ, Oi-Fm3m

NaBr, Oi-Fm3m

NaJ, OP,-Fm3m

NH,J, Of,-Pm3m

Rb J, O{-Fm3m

Wi* Gast Wirt Gast

PW

Cow

[IO01 [IO01 Pw

row

[IO01 [II01 [I iO]

[I 001 COlOl

[Ej roo11 [I 001 [IO01 [IO01

;:‘i:;

;si; [I iO] [I TO]

;%;

iI r1w [1101 [I ii]

[I IO]

[IO-O]

[OO~I

row

lI1001 [IO01 rw~l

row

[I 001

;::A; [fool W~l [flOl

;%; [I 001 [1001 [IO01 WI 11 [Oil]

WOfl

;z:3 [ill] [I TO]

;::A; r1w [I 001 [I IO]

[~OOI

[Zi.O]

6,87 6,66 -3.1

6887 7806 223

6,g7 5997 -13*1

6,87 6847 -5,s

6887 7926 5.7

6,g7 7934 6%

6987 6,35 -77.6 8,61 8,24 -4,3 5970 5,83 2,3 4,06 4,12 1,s 5.75 5864 -I,9 4.06 3998 -2,0 5,75 5,64 --r,9 4,06 3,98 -2,0

12,18 II,94 -2,0

4,06 3,88 -4.4

12,18 12,5g 3,3

%,I8 8,66 5.9 &I8 8,66 5.9 5.7% 4,08 -29,4 4.09 4,og -0,2 S,lS 8,66 599 S,lS 7,07 -13,6 5978 5,77 -0,2 4,09 4,og -0.2 4909 5877 41,1 5,75 5.67 -I,9

12927 II,10 -9,s

9,99 991s -8,l

12,27 12.95

6,26 6,40

Perioden [A] Ab- weichung

%

5,g

52

Lit.

36 Sei; 28 Roy; 08 Bar 36 Sei; 28 Roy: 08 Bar 08 Bar 08 Bar

36 Sei; 28 Roy: 08 Bar 36 Sei; 28 Roy; 08 Bar 08 Bar 28 Roy 28 Roy 36 Sei: 08 Bar 28 Roy: 08 Bar 28 Roy 28 Roy 28 Roy 08 Bar 08 Bar 08 Bar 54 son 54 Son 54 Son; 52 Pas I 54 Son 54 Son 54 Vui 66 Neu 66 Neu 49 Bev 2 42 Sch 2 49 Mer 49 Be7 1: 43 Sch; 42 Sch f 59 Sch: 49 Mer: 47 Sch 64 Gru

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Misfit

Substrate Deposit Sub- De-

% Ref.


1172 TlRr, Oi-Pm3m AgBr, Bromargyrit (110) (110) [ITO] [OOI] 5963 5978 2,7 50 Roy 2; 47 Sch 1173 (110) (110) [Ill] [II21 692 70 2,3 47 Sch 1174 (100) (100) [OOI] [Oll] 3,98 4,09 2,8 47 Sch; 49 Mer 1175 TlBr TIJ, Oi--Pm3m (001) (001) [loo] [loo] 3,98 4,19 5,3 49 Mer

2.2.4 Jodide - Iodides

1176 Na J, Og - Fm3m NaCl, Halit (001) (001) [loo] [loo] 647 5,64 -12,s 08 Bar

1177 NaJ KBr, 0% - Fm3m (001) (001) [1001 [1001 13998 13,lO -63 08 Bar 1178 NaJ KJ, OE--Fm3m . (001) (001) [loo] [loo] 647 7,06 9,1 08 Bar

1179 NaJ NaBr, Oi-Fm3m (001) (001) [loo] [loo] 647 5,97 -7,7 08Bar. 1180 NaJ NH, J, OA-Pm3m (001) (001) [loo] [loo] 12,94 13914 1,5 08 Bar 1181 NaJ RbBr, Oi-Pm3m (00’) (00’) [1001 [1001 6,47 6,87 62 08 Bar 1182 N&J RbCl, 0; - Pm3m (001) (001) [loo] [loo] 6,47 6,59 I,9 08 Bar 1183 NaJ KCI, Sylvin (001) (001,) [loo] [loo] 6,47 6,35 -I,9 08 Bar. ,~ 1184 NaJ InSb, Ti-Fq3m (001) (011) [loo] [loo] 647 6,46 -0,2 67 Laf 1185

1;;;; [yy:{ ;y;;; ;y;;; 647 6,46 -0,2 67 Laf 1186 4*57 4,57 0 67 Laf 1187 (001) (111) [IIO] [fi2] 4,57 3,95 -13,6 67 Laf 1188 (001) (112) [I TO] [ITO] 4,57 4,57 0 67 Laf 1189 (001) (112) [IIO] [III] 4,57 3,75 -17x9 67 Laf 1190 NaJ KCN, Ti--F43m (001) (001) [loo] [loo] 647 651 0~5 08 Bar 1191 KJ, OE--Fm3m Ag, kubisch flachenzentriert (001) (001) [IIO] [IIO] 4,99 5977 15,6 68 Kat 1; 64 Har I;

56 Goe 1192 Al, kubisch flachenzentriert (001) (001) [IIO] [IIO] 4,99 5,73 68 Kat I; 56 Goe

2; 14,8

1193 As, Did-- R3m (001) (110) [I101 [I TO] 4,99 5,60 12,2 63 Cap 1194 KJ Au, kubisch flachenzentriert (001) (001) [IIO] [IIO] 4,99 5,76 ‘5,4 64 Har I; 56 Goe 1195 KJ Cu, kubisch flachenzentriert (001) (001) [IIO] [IIO] 4,99 5,10 22 68 Kat I; ;56 Goe 1196 KJ a-Fe, kubisch raumzentriert I;;;; [;@I; [‘OOI p; 3,53 3361 2,3 66 Hea; 49 Mer 1197 iYlOO1 7,06 5,10 -27,g 49 Mer 1198 (001) (001) [loo] [IIO] 7,06 5,10 -27,8 49 Mer 1199 KJ Ni, kubisch flachenzentriert (001) (001) [IIO] [IIO] 4,99 5,16 3,4 68 Kat 2 1200 KJ Pd, kubisch flachenzentriert (001) (001) [‘IO] [IIOJ 4,99 5,50. IO,2 68 Kat I; 56 Goe 1201 KJ NaCI, Halit (001) (001) [loo] [loo] 7,06 5,64 -20,l 08 Bar 1202 KJ KBr, 0: - Fm3m (100) (100) [OOI] [OOI] 7,06 6,66 -5,7 36 Sei; 28 Roy:

08 Bar

Nr. Wirt Gast

1203 1204 1205 1206 1207 1208 1209 1210 1211 1212 1213

KJ, Oi-Fm3m LiCI, Oi-Fm3m

KJ LiF, Oi- Fm3m

NaBr, Of, -Fmjm NaF, Villiaumit

KJ NaJ, Oi-Fmjm

1214 KJ NH,Br, Oi-Pmjm 1215 KJ NH&l, Salmiak 1216 KJ RbBr, 0: -Fm3m 1217 KJ RbCl, O{-Fmjm

121s KJ

KJ

RbJ, Oi-Fmjm

1219 1220 1221 1222 1223 1224 1225 1226 1227

As,O,, Arsenolith

KJ PbS, Galcnit

KJ KCN, T,?I-Fqjrn

KJ RbCN, T,?I-P43rn RbJ, Oi-Fm3m KBr, Oi-Fm3m

1228 RbJ K J, Oi-Fm3m 1229 RbJ NaBr, Oi-Fm3m 1230 RbJ NaJ, Ot-Fm3m 1231 RbJ NH,Br, Oi-Pm3m 1232 RbJ RbBr, Oz-Fm3m

1233 RbJ KCN, T,?, - Fq3rn 1234 RbJ RbCN, Ti - Pqjrn

Phasen T Ebenen

Wirt Gast

(001) (011) (001) (001)

;kiz:; (001)

;:i:;

;t;

(001) (001) (001) (100)

(100)

(111) (111)

;:::; (001)

;z::;

(001) (100)

(100) (001) (OOf) (001) (100)

l- Richtungen Perioden [A]

Wirt Gast Wirt Gast

rf 001 [I101 [II01 [1001 [I101 [I101 [1001 [1001 [I 001 rllol roo11

[1001 [I 001 [I 001 Km

roo11

[I 001 [pool [I TO] [I 101 [IO01

;:t: [IO01 WI

row [1001 [IO01 [lOOI PO11

r1001 [loo1

[I 001 7.06 5,15 -27.1 [1001 4*99 5.15 3,2 r~ool 4e99 5.15 3,2 [IO01 7,06 8,04 1389 [1001 4B99 4,03 -19.2 [1001 4,99 4,03 --19,2 II1001 7,06 5,97 -IS,4 [IO01 7.06 9824 3099 [I101 7,06 6955 -7.2 r1001 4999 4,63 -7.2 row 7,06 6,47 -8,4

[1001 7,06 6.91 -2.1

[IO01 7906 6.54 -7>4 iI 7,06 6,87 -297 roof1 7,06 6,59 -6,7

[0011 7,06 7.34 4,o

[iio] 7,06 7,8f IO,6 [liz?] 14,12 13.52 -4,2 [i To] 9,9S 7,Sj -21,7 [I 1 Z] 14896 13.52 -9,6 [1001 7.06 5,97 -IS,4 Cl 101 7306 s,44 19.5 [lOOI 7,06 6,56 -7,1 [1001 7806 6,S3 -383 W~l 7,34 6,66 -9,3

row [IO01 [IO01 [IO01 row

[I 001 r1001

7,34 7,34 7,34 7834 7‘34

7,34 7834

7,06 -3,s 5197 --15,7 6,97 -5,o 6,91 -5,9 6,57 -6,4

6356 -lo,6 6,S1 -77,2

Ab- weichung

% Lit.

56 Lue 56 Lue 56 Lue 56 Lue 56 Lue 56 Lue 08 Bar 56 Lue 56 Lue 56 Lue 35 Sei; 28 Roy; 08 Bar 08 Bar 08 Bar 36Sei; 08 Bar 36 Sei: 28 Roy: 0’8 Bar 36 Sei; 28 Roy: 08 Bar 54 Mon 4 541Mon4 54 Mon 4 54Mon4 67Kle5 67Kb5 08 Bar 08 Bar 36 Sei; 28 Roy: 08 Bar 36Sei; 28 Roy 08 Bar 08 Bar 08 Bar 36 Sei; 28 Roy: 08 Bar 08 Bar 08 Bar

-4

Phases Planes Directions Periods [A] No. Sub- De-

s2,be 1 pDo% 2ZtYe 1 ,“oZi Refe %

Misfit Substrate Deposit strate posit

1235 NHtJ, OA-Pmjm KBr, 02 - Fm3m (100) (100) PO11 [OOI, 7,25 659 -9,l 36 Sei; 28 Roy; 08 Bar

1236 N%J NaJ, Oi-Fmjm (001) (001) [loo] [loo] 7.26 647 -IO,9 08 Bar 1237 N%J RbBr, 0: -FmSm (100) (100) [OOI] [OOI] 7.26 687 -55,4 36 Sei; 28 Roy;

08 Bar. 1238 N&J KCN, Ti-F;Fsrn (001) (001) [loo] [loo] 7J.5 6,56 -9,s 08 Bar 1239 NH,J RbCN, Ti--P;Fsrn (001) (001) [loo] [loo] 7% 683 --5,9 08 Bar 1240 fi- Ag J, Jodargyrit y-AgJ, Ti-F;isrn (0001) (111) [IO.01 [lIO] 459 4,60 62 66 Neu 1241 B-&J AgCe, Cerargyrit (0001) (111) [II.01 [Ii01 3,98 3,92 -I,5 03 Mue 1242 (0001) (111) [li.O] [ITO] 3,98 3,92 -I,5 28 Roy 1243 8-&J H,O, Eis-I (0001) (0001) [IO.01 pa-o] 4,58 4,52 -I,3 66 Neu: 61 Kle 2;

58 Wei; 49 Tri I, 2 1244 (0001) (1010) [IO.01 [OO.l] 4,58 3,66 -20,l 61 Kle 2; 59 BYE;

56 Jaf I 1245 (0001) (IOIO) [21.0] ]lO.O] 3,96 4,52 14,l 59 Bry; 56 Jaf I 1246 (0001) (IOiO) [IO.01 [IO-O] 4,58 4,52 -I,3 59 Bry; 56 Jaf 2 1247 (0001) (1010) [21.0] [OO.l] 3,96 3,66 - 7,6 59 Bry; 58 Kle I;

56 Jaf 2 1248 B-&J Ag,AsS,, Proustit (0001) (0001) [IO.01 [II-O] 9,16 9,36 2,2 03 Mue 1249 a-AgJ, Miersit B-Ag J, Jodargyrit (111) (0001) [ITO] [lO.O] 4,53 4,58 191 50 Vul; 30 Spa;

28 Roy 1250 (111) (0001) [IlO] [OO*l] ’ 9,00 9*18 03 Mzle

CdJe, Dla--P31rn w

1251 Au, kubisch flachenzentriert (0001) (111) [IO-O] [I121 4,24 4,94 165 67 Per 2 1252 CdJz H,O, Eis-I (0001) (0001) [lO.O, [lO*O] 4,24 . 4,46 5,2 61 Kle 2: 59 Bry;

58 Kle 2; 58 Wei; 57Kle I

1253 (IIZO) (1120) [OO.cJ [OO.l] 6,84 7,32 7,o 57 Kle I 1254 Hg Je, Coccinit H,O, Eis-I (010) (0001) [100] [IO.01 4,36 4.52 3,7 59 Bry 1255 PbJ,, D&-PSrnl H,O, Eis4 (0001) (0001) [IO.01 [IO.01 4,52 4,46 -I,3 61 Kle 2; 59 Bry;

58 Wei; 56 Jaf 2 1256 : (0001) (0001) [IO.01 [10.0] 4,52 4,46 --1,3 58 Kle 2; 57 Kle I 1257 (0001) (0001) [OO. 11 [OO. I] 6,93 7,32 5,6 58 Kle 2; 57 Kle I

2.3 Oxide und Hydroxide - Oxides and hydroxides 2.3.1 Oxide - Oxides

1258 Cu,O, Cuprit Cu J , Marshit 1259 cu,6 CuO, Tenorit 1260 cu,o CuS, Covellin

Nr.

1261 I 262 1263 i 264 1265 1266

1267 1268 1269

l270

1271

1272 1273 1274 1275

1276 1277 1275 1279 1280 1251 1252 1253 12S4

1285

12S6

1257

1288 l2Sq i 290 1291 i 292 1293 1294

Wirt


Gast

CuO, Tenorit CuCO,.Cu(OH),, Malachit BeO, Bromellit MO, kubisch raumzentriert Be0 GaAs. T;i - F43rn

MgO, Periklas Ag, kubisch flichenzentriert

M&’ MO, kubisch raumzentriert M@ Ta, kubisch flachenzentriert

MgO NaCl, Halit MgO LiF, Oi- Fm3m

M@ NaBr, Oi-Fmjm

MN NaF, Villiaumit

MgO Bi,Ti,O,, D?$-Fmmm 1 ”

MgO CoFe,O,, Co-Fe-Spine11 M@ Mn,O,, Mn-Spine11

Au, kubisch flachenzentriert Co, hexagonal dichteste

Kugelpackung a-Fe, Ferrit y-Fe, kubisch flachenzentriert Nb, kubisch raumzentriert

Ni, kubisch flichenzentriert

Ge. Oi-Fdjm

Wirt

(001) (0001) (IOil) (0001) (ioio) (00’)

Wirt Gast Wirt Gast

[II01 [21 .O] [Ol .O] [lO.O] [01-O] r’w

r1101 [I101 [I 001

[1101 [IO01 r1001 PI 01 [~I01 [I 001

r1w [1001 [I ii] [I io] roll1 [I 001 roo11 [0011 [I 001 ww [I 001 r1w [1101 r1w [IO01 Peal roof1 [IO01 [I101

[OO~l [I ‘:Ol

;: ;:; [II01 [IO01

CflOl [1101 [IO01

[pool [I101 [IO01 Pal r’ool [~~~I

:: ;; [IIZ]

::i; [I101 [I 001 [II01 ~~~~1 WI [1101 ri1001 [I 001

[::A; WI

;::A; [IO01

578 6.42 II,1 4,66 4.95 62 7,10 7998 12,4 7,10 7,9s 12,4 7,10 7,9S 12,4 4,21 4,os -3,1

se97 5.76 -3,s 5,97 5975 -3,7 4,21 4.30 %I

289% 2;87 -3.7 4,21 3366 -13,l 4,21 3,3o -21.6 4,21 3,3o -21,6 2,97 3930 II,1 4,22 3,59 -14.9

8,44 7862 -997 S,44 7.62 -9,7 7929 6,94 -4,s 5231 5366 -2,6 53’ 5866 -2,6 4,22 4,95 ’ 7,3 4,22 4,06 -3,s 4,22 4.70 11,4

12.63 11,28 -lo,7 4.21 4,o3 -4,3 4,2l 4,23 0.5 4,21 4963 IO,0 5,95 585’ - 7,4

33,68 32,S4 -2,s 4.21 3855 -7,s

33,6S 32S4 -2,s 33,6S 32,S4 -2,s

4,21 4.04 -4.0 5,Sl 5,75 -I,0


% Lit.

67 Kle 2 68 Man I 69 Man 69 Man 69 Man 69 Cho 2; 69 Hon; 67 Kor; 52 Neu; 30 Thi 69 Cho 2 69 Cho 2; 69 Non 63 Sat

63 Sat 63 Cap 65 Hut 65 Hut 65 Hut 63 Cap; 63 Sat; 50 Thi 50 Tki 50 Thi 64 Sch 1; 62 Slo 64 Sch 1, 62 Slo 64 Sch I 68 Man I 68 Mar; 66 Den 68 Mar; 66 Den 49 Mer 49 Mer; 28 Roy 36 Sei 49 Mer 69 Tak 69 Tak 69 Tak 69 Tak 69 Tak 68 Kum 2 70 Cas



% Ref.


1295 MgO, Periklas MgFe,O,, Magnesioferrit (100) (100) [OOI] [OOI] 8,42 8,38 r-OS 60 Gah; 40 Thi 2 1296 (Mn-Fe-Spinell) (110) (110) [OOI] [OOI] 8,42 8>38 -65 60 Gah 1297 (111) (111) [I101 [I101 5,97 593 -0,7 60 Gah 1298 MN MnO, Manganosit (001) (001) [loo] [loo] 4,22 4,43 5,O 50 vu1

1299 M@ Mn,O,, Digi 14Jamd (001) (001) [loo] [loo] 4,22 4,43 5,O 50 vu2 1300 MN Mg(OH),, Brucit (111) (0001) [ITO] [IO-O] 2,98 3,lj 5,O 66 NeM 1301 M@ PbS, Galenit (Bleiglanz) (001) (001) [IlO] [loo] 5,97 5,94 -Or5 69 Hart 1302 MgO PbSe, Clausthalit (001) (001) [IIO] [loo] 597 613 2,7 69 Han

1303 ZnO, Zinkit NaC1, Halit (0001) (001) [21.0] [loo] 5,62 5,64 0,4 51 Joh, 50 Joh 4 1304 ZnO wFe,O,, Haematit (0001) (0001) [lO.O] [IO.01 9975 IO,08 334 70 Mue 1305 (1102) (0001) [IO.01 [IO.01 9,75 lo,08 3,4 70 Mue 1306 ZnO Mn,O,, Hausmannit (1010) (010) [OO * I] [ZOI] 5,18 495 -4,4 50 vu1

1307 ZnO a-Zn(OH),, Di-P~,z,z, (0001) (021) [II -01 [loo] 650 5,16 -20,6 66 Neu

1308 a-Al,O,, Sapphir (Korund) ‘Au, kubisch flachenzentriert (0001) (111) [21-O] [120] 8,2S 9,11 IO,4 70 Via

1309 a-Al,O, Cu, kubisch fllchenzentriert (0001) (111) [lO*O] [I IO] 4,76 5,04 5,9 68 Kat 2 1310 a-Al,O, Si, Oh-FdSm (l.lZO) (110) [ZO * I] [I TO] 16,10 15,36 -4,6 66 Lar 1311. (0112) (100) [lO.l] [loo] 4,46 5,43 21,7 66 Lar 1312 (0001) (111) [12.0] [IlO] II,68 -ii,52 -I,4 68 Ito 2; 68 Man 2;

66 Lar 1313 (l.lSO) (110) [OO * I] [OOI] 13,Ol IO,86 -16,5 64 Man 1314 (1 iO2) (001) [I1 SO] [IIO] 476 3,84 --19,3 69 Kha 1315 (0001) (111) [IO.01 [ITO] 4,76 3,84 --19,3 69 Yas 1316 (0001) (111) [Zl .O] [I IO] 8,25 7,68 -69 69 Yas; 65 Por 1317 (0001) (111) [41-O] [I IO] 20,22 19,20 -5,o 69 Kha 1318 (6289) (I.1 5) [31.0] [ITO] 12,60 II,52 --8,6 65 POY 1319 a-Al,O, MO, kubisch raumzentriert , (0001) (111) [IO.01 [I IO] 4,76 495 4,O 68 Man 4 1320 (liO2) (001) [II -01 [IlO] 4,76 4,45 -65 68 Gal I 1321 a-A&O, W, kubisch raumzentriert (1 IOZ) (001) [II -01 [IIO] 4,76 4,47 -6,1 68 Gal I 1322 a-A&O, CrO,, Dg--P4Jmnm (0001) (210) [lO*O] [OOI] 4,76 5,72 20,2 66 VYi

1323 wAl,O, or-Fe,O,, Haematit (0001) (0001) [IO.01 [IO.01 4,76 5,03 597 66 Noa; 50 Vu1 1324 a-A&O, NiO, Bunsenit (IIZO) (111) [00.1] [IIZ] 13,01 IO,24 -21,3 49 Mer; 40 Thi I, 2 1325 (0001) (111) [IO.01 [IIZ] 9,52 IO,24 7,6 40 Thi I 1326 (1011) (110) [lZ.l] ’ [IIO] 5,14 5,94 15,6 40 Thi I 1327 (1011) (110) [ll.l] [IIO] 5914 5,94 IS,6 49 Mer 1328 a-Al,O, MgAl,O,, Spine11 (0001) (111) [OO.l] [Ill] 13,Ol f4,07 8,f 64 Sch 2; 30 Spa 1329 a-Al,O, TiO,, Rutil (0001) (100) [Ol . O] [OOI] 14,25 14,65 2,8 30 .!$a; 03 Mue 1330 (0001) (100) [II -01 [OOI] 14,25 I%65 2,8 54 Len

I Phasen .I- I Ebenen I Richtungen 1 Perioden Ml \ . .._iQ+ 1 -L..-- T 11 i.1. -l

1331 1332 1333 1334 1335 1336 1337

1338

1339 1340 1341 1342 1343 1344 1345 1346 1347 1343

1349

1350

1351

1352 1353 1354

1355 1356 1357 1355 1359 1360 1361 1362

1363 1364 1365

Wirt

n-Al,03, Sapphir (Korund) 250, Zinkit a-Al,O, a-NOOH, Diaspor

a-.41,0, /%CdS, Greenockit oAl,O, GaAs, Tjj-F;i3m a-Al,O, B-Sic, Ta - F43m

MgAlzO,, Spine11 Si. Og-Fd3m MgAI,04 MO, kubisch raumzentriert MgAI,O, 3 AI,O, - 2SiO,, Mullit MgAI,O, Ga,O,, C&-C2/m MgAl,O, GaAs, T,?,-Fq3rn

Na,O* llAl,O,, D& - P6,/mmc

SiO,, Aventurin-Quarz

a-Fe,O,, Haematit

a-Fe,O,, Haematit

SiO,, Hoch-Cristobalit SiO,, Quarz

SiO,, Hoch-Tridymit SiO,, Hoch-Cristobalit SiO,, Quarz, Di-P3,21 Ag, kubisch flachenzentriert SiO, Al, kubisch fllchenzentriert

SiO, Au, kubisch fl2chenzentrier-t

Gast wirt Gast Wirt

(0001)

I::::; (0001) (0001)

;z:; (0001) (roil) (loi4)

I: 2:; (IISO) (loio) (CIi i2) (of i2) (01 i2) (001) (001) (III) (III) (III) (001) (0001)

(1 150) (ioio) (0001) (100) (100) (100) (0001) (loio) (loio) (loio) (ioio)

(0001) (010) (010) (100) (100) (010) (0001)

(Ill) (100) (110) (211)

;:z’, (110) (100) (110) (III) (001) (001) (310)

(013) (III) (001) (0001)

(0001) (0001) (0001) (0001) (loio)

K? (100) (100)

[:::I

[lO.O]

;y-;;

[oo: I] [ii-o] [I T-O] [IO-O] [12.0] [Ol .O] [Ol .O]

KY . [OO.l]

5:r:; [lo:01 [IO-O-J [I 001 Cl001 [i io] [i io] [I 1 Z] [1001 [IO-O]

Gast Wirt Gast

[lO*O]

[IO01

;;i:;

;::i; [IO.01

[i io]

Pw p11

;:A:; [oii]

;:::3 Py

[::A; [I101 t-0011 [I 001 [I To] [I 101 [lO*O]

[IO.01 [IO.01 [IO-O] [II .O]

;y;*;;

[I ii]

w11 I3111 [I io] [i io]

9852 9B75 13.01 13320

4,76 5,66 13,Ol 13320

4,76 5,66 4.76 5,66 4,76 4,15 s.25 7,96 4.76 4,36 4,76 4.36 Y25 9,25

13,Ol 13,OY 13,Ol 12,34 4,76 4,36 4.76 4336 4.76 4,36

14,28 14,48 4,04 3,54 4,04 4.95 5972 5.75 5,80 5,72

19,78 19,9o s,os 7,96 5,ss 5903

5,4o 5,o4 4,41 5,o4 4,41 5,o4 5.05 4,91 5905 4,91 3999 4,26 5904 5804 5,4o 5.77 5840 5,72 5,40 5.72 5,40 5.76

-.VC%CU”Ug

%

234 1,s

l&9 1,s

l&9 l&9

-12,s

-3,s -s,4 -&4 12,l

-;: -5:4 -&4 -s,4

1,4 -5,0 22,s

0.5 -I,4

0.6 -1,s -9.9

-6.7 1433 14,3

-2,s -2,s

6,s 0

69

69 Roz 63 Bar 63 Bav 63 Bar; 50 Vul 63 Bar 63 Bar 69 Roz 69 Man; 69 Rai

66 ROIL 66 Roh 66 Roh 66 Roh 66 Roh 66 Roh 66 RoJt 66 RoJt 66 RoA 68 Hey 2 68Man 1 62 Geh 69 Kat 69 Man 69 Man 65 Seg

15 And 15 And 15And 50 vuz 50 vuz 50 vuz 50 vuz 37 Rue 36 BTU 36 Bru 50 TVeu I: 37 Rue; 36 Bru



% Ref.


1366 SiO,, Quarz, Dz-P3,21 Au, kubisch flachenzentriert (IOlO) (110) [OO.l] [IIO] 5,40 5,76 677 36 Bm (Fortsetzung)

1367 SiO., Bi, Did 2 R3m (0001) (0001) [IO.01 [IO.01 4191 4,54 -7,5 65 Her 1368 SiO, Pd, kubisch flachenzentriert (IOiO) (100) [OO.l] [Oll] 5,40 5,50 I,9 37 Rue 1369 SiO, Si, Oz--Fd3m (0001) (001) [IO-O] [loo] 4,91 5,43 10,6 64 Bit 1370 (1010) (010) [OO. I] [OOI] 5,40 5,43 0~5 64 Bit 1371 (1010) (001) [Ol .O] [OIO] 4,91 5,43 lo,6 64 Bit 1372 SiO, NH&J, Oi--Fm3m (1010) (001) [Ol * O] [I 1 O] 4,91 5,13 495 54 Wil I 1373 SiO, TiO,, Rutil (IOiO) (010) [OO. I] [OOI] 5,40 5,92 9,6 56 vu1 1374 (1010) (010) [Ol . O] [OOI] 14,73 14,80 095 56 vu1 1375 (0001) (010) [21-O] [OOI] 8x51 8,88 56 vu1 1376 (0001) (010) [IO-O] [loo] 4,91 4859 -8: 56 vu1 1377 [II -31 Pw 18,34 17,76 -3,2 56 vu1 .I378 (1211) (010) [ol .6] [OOI] II,88 II,84 -0,3 5G vu1 1379 [Ol - 31 [OOII 14,63 14,80 12 5G vu1 1380 [Ol .2] [OOl] 18,24 17,76 -2,6 5G vu1 1381 [02.3] [Obl] II,23 II,84 5,4 56 Vu1 1382 131.21 [OOll 20,75 20,72 -0,l 5G vu1 1383 [21. I] [OOI] 14,08 14,80 5,1 56 vu1 1384 [Sl~ll [OOII 27,86 26,64 -4,4 56 vuz 1385 (1101) (610) [21.2] [OOI] 13,73 14,80 798 5G vu1 1386 (1 IO2) (010) [21 . I] [OOI] 20,17 20., 72 297 5G vu1 1387 SiO, SiO,, Tridymit (1011) (001) [Ol -01 [I 001 9,82 9,90 03 50 vu1 1388 SiO, ZnO, Zinkit (0001) (0001) [IO.01 [IO.01 4,91 4,88 -0,6 69 Sha I 1389 SiO, j%ZnS, Wurtzit (0001) (0001) [21.0] [lO.O] 4,26 3985 -9,6 63 Sha; 50 Vul;

36 Kre 1390 SiO, c&nS, Zinkblende (Sphalerit) (0001) (111) [21 .O] [I TO] 4,26 3,84 -989 63 Sha; 36 Kre 1391 SiO, GaAs, Ti-F43m (1010) (111) [Ol .O] [IIZ] 4,91 4,61 -6,1 G5 Tau 1392 SiO, KWg, Fe),[(OH, %, . (AI%OI,)l, (1010) (001) [OO.l] [OIO] lo,80 9,23 --14,5 58 Kos

Biotit 1393 (0001) (001) [IO-O] [loo] 4,91 5,31 8,l 58 Kos 1394 SiO, Mg,[Al,Si,O,,], Cordierit (1011) (001) [IO-O] [loo] 14,73 17,13 1693 50 Vd; 02 Wal 1395 SiO, (K, Na) [AISi,O,],. Feldspat [Of.31 [OOI] 7,30 7,20 -I,4 30 S$a 1396 SiO, (Na,!,,Ca,,,,)[AI,,,,Si,,,,O,l, (foil) (010) PI -01 PO11 14,73 13326 --IO,0 57 Fra

Ohgoklas 1397 SiO, WW, WW,QWH),+, (0001) (0001) [IO-O] [IO-O] 14,73 15,95 8,3 02 Wal

. (BO,), . Si,O,,], Turmalin

Phasen Ebenen Richtungen Perioclen [A] Ab- Nr. weichung Lit.

,Wirt Gast Wirt Gast Wirt Gast Wirt Gast %

139s SiO,, Triclymit SiO,, Cristobalit (0001) (111) [iO.O] [ITO] 9.90 109% 6.7 67Kle4 1399 (loi6) (111) [oi -01 [I io] 9,9o loss6 6.7 03 Mue 1400 SnO,, Cassiterit (Zinnstein) ar-Fe,O,, Haematit (100) (0001) [OOI] [IO.01 9,54 10,os 5,7 66 Noa; 62 Noa 1 1401 SnO, SiO,, Quarz (III) (ioio) [II21 [OO. I] 4,62 5.47 l&4 67 Kle 4; 50 Vu.? 1402 [A;;; y;’ wo11 [IO*01 9.54 to,02 5.0 67 Kle 4 1403 SnO, (Fe,Mn)Ta,O, Tantalit [IO01 r1001 14.19 14,24 084 50 vu1 1404 cc-PbO, Lithargit NaCl, Halit (Ill) (III) [I io] [i io] II,20 II.97 69 51 Joh 1405 (100) (100) [OOI] [OOI] 500 5.64 12.8 5I Joh 1406 TiO?, Anatas TiO,, Rutil (112) (110) [iio] [ooi] 5.25 5,92 12,l 50 Vul; 30 Spa:

03 Mue 1407 (335) (110) 11 iol [oo~l 528 592 12,l 50 Vul; 30 Spa;

03 Mue 140s (225) (110) [Ii01 [OOI] 528 5,92 12,l 30Spa 1409 TiO,, Brookit TiO,, Rutil (010) (100) [loo] [OOI] 9,18 s,ss -3,3 64 Sha:50 Vd:

30 Spa; 03 Mue; 02 Wal

1410 (010) (loo) [oil] [ool] 3,so 2996 -15,4 50 vu1 1411 (210) (110) [OOI] [OOI] 515 5,92 15s 50 vu1 1412 (III) (110) [OilI p; 3,so Z96 - 15.4 50 vu1 1413 TiO,. Rutil CrO,, D:i-P4,/mnm (100) (100) ;y;; 2,96 2.92 -1.4 66 vri 1414 (110) (110) WI 2.96 2,92 -I,4 66 Vri 1415 (210) (210) [OOI] [OOI] Z96 x,92 -i,4 66 Vri 1416 y;; (001) [1001 [1001 4,59 4.42 -397 66 Vvi 1417 TiO, a-Fe,O,, Haematit (0001) [OOI] [IO.01 5.92 5.04 -14.9 66 hloa; 62 Noa I 141s TiO, FeTiO,, Ilmenit

I;::; (0001) [OOI] [IO.01 5.92 5.09 - 14.0 65 Bar; 60 Bau

1419 (0001) [ooi] [II .O] 5392 s,o9 - 14.0 60 Bau 1420 (120) (0001) [OOI] [II .O] 5992 509 - 14,o 60 Barn 1421 TiO, Fe,O,, Magnetit (100) (III) [ool] [ii01 2,96 2.97 083 66 h’oa. 62 Noa I 1422 TiO, 0% - Fm3m TiO,, Anatas

[:::i (001) [I 001 [IO01 4.17 3.74 -IO,3 55 Oke ’

1423 (010) [0101 roo11 s.34 9.39 12.6 55 Oke 1424 TiO TiO,, Rutil (iii) (010) [lio] [1001 s,ss 9.1s 3,7 550ke . 1425 (Ca,U)t(Nb,Ta,Ti), Fe,O,, Magnetit (iii) (iii) [oil] [iii] 14,53 14.54 RI 50 vu1

l [O,(O,OH,F)], Betafit 1426 (Ca,Na,U),(Nb.Ta,Ti), (Y,Ce,U,Pb,Ca)(Nb,Ta,Ti), (001) (001) [loo] P 01 io,s9 II,04 la4 50 vu1

l [O,(O, OH, F)], Blom- . [(O,OH),], Euxenit stranclin

1427 (001) (001) [OIO] [loo] 14.72 14,57 - 1 ,o 50 vu1 142s (Fe,Mn)Nb,O,, Columbit (Y,U,Ca) (Nb,Fe)2[(O~OW81, (001) (001) r1001 [loo1 14,27 14,54 1,9 50 vu1

Ampangabeit (Samarskit)

Phases I Directions

I Periods [A]

” 1- I -- c---1- I n- C.-l. I n- I Misfit I a.4

1429

1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 1443 1444 1445 1446 1447 1448 1449 1450

1451 wFe,O, FeTiO,, Ilmenit

1452 1453 1454 1455 1456 145.7 1458

1459 1460

Substrate Deposit

(Fe, Mn)Nb,O,, Columbit

(Fe,Mn)Nb,O, (Fe, Mn) (Nb, Ta) 2O,, Mossit (Fe,Mn)Ta,O,, Tantalit CrO,, Di:-P4,/mnm

MnO, Manganosit MnO MnO,, Pyrolusit (Mn, Fe) eO,, Bixbyit

(Mn, Fe) @, P-Se) ,O, FeCr,O,, Chromit (Spinell)

(Zn, Mn)Fe,O,, Franklinit cc-Fe,O,, Haematit a-Fe,O, oc-Fe,O, ol-Fe,O,

or-Fe,O, Fe,TiO,, Pseudobrookit ar-Fe,O, SiO,, Quarz, Dl- P3,21

ol-Fe,O, TiO,, Rutil

a-Fe,O, SnO,, Zinnstein (Cassiterit)

(Y, Ce, U, Pb, Ca) (Nb, Ta, Ti), . [(0, OH),], Euxenit

UO,, Uraninit FeTiO,, Ilmenit FeTiO,, Ilmenit or-Cr,O,, Eskolait

or-Fe,O,, Haematit ZnO, Zinkit 3 Mn,O, e MnSiO,, Braunit 3 Mn,O, e MnSiO,, Braunit or-AIOOH, Diaspor (Mn,Fe),O,, oc-Vredenburgit TiO,, Rutil

Mn,ZnO,, Haeterolith SiO,, Cristobalit CrO,, D&$ - P4,/mnm Fe,O,WO,, Oc--FdSm Fe,O,, Magnetit

3u D-

~ strate

(001)

(010) (111) (111)

(100)

fz:;

(III) (001) (001) (001) (100) (111) (001) (111) (0001) (0001) (0001)

[z:/

g:i;

(0001)

[;:ly (0001)

[E: ; (0001) (0001)

iJl?-

posit

(001)

(001) (0001) (0001)

(0001) (IOTI) (0001) (0001)

(001) (001) (001) (110)

[E; (111) (111)

(210) (010)

(III) (III) (112) (III)

(0001)

(1011)

(121) (1010)

~ (1120) (1010) (1011) (100)

3u D- UB-

strate posit

[1001 [1001

[1001 [I 001 [Ol I] [lO.O] [Ol T] [IO.01

P111 [IO.01

r1001 [Ol .O] [I TO] [IO.01

[I IO] [lO*O]

r1001 [IO01 [IO01 [1001 [1001 [1001 [OOII wo11 [I IO] [OW [I101 [I i T] [is:; [IO.01 [IIO]

[IO.01 [OOI]

[IO.01 [OOI]

[lO.O] [I TO] [II .O] [I TO] [IO-O] [I IO] [lO.O] [I IO]

[IO.01 [IO.01

[01-O] [01-O] [IO.01 [ZiO] [IO.01 [OO.l] [lO*O] [OO*l] [II *O] [Ol .O] [II *O] [Ol .O] [12.0] [OOI]

[Ol .O] [iOi] [IO.01 [OOI]

CJuu-

strate

14,27 14,57 z1

5,71 5,50 -3,7 5,15 5,09 -I,2

11,49 IO,18 -II,4 5,30 4296 -6,4 4,42 4,96 12,2 5,24 4,96 -533 3,14 3,25 3,s 8,78 9,52 8,4 9,39 9,52 124 9.39 8,82 -6,1 9,39 8,87 -5,s 5,90 5,92 0,3 5,90 5992 0,3

14,59 14,72 0,9 5,03 5,05 0,4 5,03 5,83 IS,9 5,03 5,18 3,o 5.04 5,94 17,9 5,04 St94 17,9 5,04 5,94 17,9 5,03 St94 IS,1

5,03

5,03 5,08 I,0 5,03 5,42 7,8 5,03 5,40 7,4 5,03 5,40 7,4 5,03 4,91 -2,4 5,03 4,91 -2,4 8,72 8.88 1,s

5,03 5,03

JY.+-

posit

5,os

5,46 8,s 4,74 -5,s

%

I,0

50 vu1

61 str 1

50 vu1 50 vu1 67Sha G7Sha 50 vu1 50 vu1 50 vu1 50 vu1

50 vu1

50 vu1

59 For 50 vu1 50 vu1

G7 Kle 4

66 Vri

67 Kle 2

67 Moi 67 Moi 67 Moi 151 Bau; 30 @a; 02 Wal 54 Barn; 30 Spa; 29Gru 29Gm 50 vu1 67 Kle 4; 50 Vu1 Ii7 Kle 4; 50 Vu1 50 vu1 50 vu1 50 Vul; 36 Sei; 30 @a; 28 Roy: 03 Mue; 02 Wal 03 Mue 50 vu1

Nr.

1461

1462

1463

1464 1465 1466 1467

146s 1469 1470 1471 1472

1473 1474 1475 1476

1477 147s

1479 14so

l4Sl 14S2

1453

1454 1455 14S6 14s7 1485

Wi*

Phasen

Gast

FeTiO,, Ilmenit Rl,O,, Korund FeTiO, Fe,O,, Haematit FeTiO, CaTiO,, Perowskit FeTiOs TiO,, Rutil

(Mn,Mg)O* (Fe,Mn),% Jacobsit

y-Fe,O,, Maghemit

Fe,O,, Magnetit a-Fe, kubisch raumzentriert Fe&b a-Fe,O,, Haematit

Fe&b Fe,O,- TiO,, Pseudobrookit

(Fe,Mn)WO,, Wolframit a-Fe,O,, Haematit

Ebenen

Mn,O,, Hausmannit

a-Fe,O,, Haematit

.

y-Fe,O,, Maghemit FeTiO,, Ilmenit

Fe,TiO,, Pseudobrookit TiO,, Rutil

MgAl,O,. Spine11 Fe,O, x M 0,$X3, Wiistit

Cu,FeS,, Bornit (W Fe,.41),~Wd(0H),

. (Si, Al),O,,]. Chlorit (Ca,Na), (Mg, Fe, Al), [(OH, F)B

. (Si, Al),O,,] Hornblende (Amphibol)

FeWO,, Ferberit TiO,, Anatas

Wirt

(0001)

(0001)

(0001)

(0001) (0001) (IOTO) (III)

(122) (III)

~~~~;

(III)

(III) (III)

;:7:;

(III) (III)

(100) (100)

[E:;

(III)

I:::;

;:z;

(100)

Gast

(0001)

(0001)

(111)

[E{

;:t;

(0001)

;:;;i; (100) (0001)

(000 i)

[E:’ (0001)

(100) (100)

Richtungen

Wirt Gast

[IO-O] [lO.O]

[lO.O]

[IO.01 [lO.O]

;yy

:y;;;

[I io]

;%;

E; F$;

[1001 [I io]

[i io] [I io]

;:::;

r1w [i io]

[i io]

[I iO] roo11

[ii:3 WI

[IO.01

[lO.O]

[oil]

;:;:3 roo11 [2oi]

[II .O]

;yy * A; .

[OOII [IO-O]

[IO-O] [ii.01 [~OOI [II .O]

l-0101 lwl

[ii:;

[IO01 roio1

P101

;%; r1101 [II .O] [IO.01

Perioden [A]

Wi* Gast

.5,09 4,76 -695 55 Ram

s,o9 5,o3 -I,2 50 vu1

5,o9 5939 5.9 50 Vul; 03 Mue

5809 2896 -4l,S 3OSpa 5909 2,96 -41,s so vu2

14803 14,so 5,s 50 vu1 14959 14,s9 &I 50 vu2

525 5804 -4.0 l4,42 13.77 -4.5

2,94 2,91 -I,0 8839 S,61 26 5,94 LO3 --15,3

St94 5.03 -15.3 2997 2,91 -2,0 S,39 8932 -0,s 5,99 5909 -15s

S,39 9,95 IS.6 2.97 2,96 -0,3

8339 5.39

8939 5,91

ll,S3

5,99 3,73 3,73 4.99 4,99

s,12 -3,2 sass 2,3

IO,94 30,4 9,20 3.3

II,55

4,94 3,73 3,73 5.04 5,o4

-2,4

69 Go1 60 Ber; 57 Ber 66 Neu; 57 Ber 39 Bui 66 Noa; 62 Noa I; 54 Ram; 50 Vul; 30 Spa; 29 Gru; 28 Roy: 02 Wal 66 Noa 66 Neu 66 Neu 54 Ram; 50 Vul; 30 Spa; 29 Gru 50 vu1 50 Vul: 30 Spa; 28 Roy; 03 Mue; 02 Wal 30 Spa; 29 Gru 66 Neu:IONeu I; 49 Mer; 39 Bui 50 vu1 50 Vul: 03 Mue; 02 Wal 50 Vul: 03 Mue

-17,5 67Kle 2: 66Noa 0 50 Vul 0 50 vu1 I,0 50 vu1 110 47 Ram

Ab- weichung

% Lit.



% Ref.


1489 (Fe,Mn) WO, Wolframit CaWO,, Scheelit (010) (001) [OOI] [loo] 4,99 525 52 47Ham 1490 (010) (001) [OOI] [I101 4,99 557 11,6 50 vu1 1491 Fe,O, x m 0,98, Wiistit Fe,O,, Magnetit (100) (100) [OOI] [OOI] 8,58 8,39 -2,2 49 Mer 1492 NiO, Bunsenit Fe,NiO,, Trevorit (100) (100) [OOI] [OOI] 8,36 8,43 68 66 Neu -

2.3,.2 Hydroxide - Hydroxides

1493 Mg(OH),, Brucit MgO, Periklas (0001) (001) [l?.O] [I TO] 3,1’3 2,98 -4,8 G4 Sha 1494 MgPWz H,O, Eis-I (0001) (0001) [IO-O] [lO*O] 9,39 9,04 -3,7 59 Bry

1495 Ca(OH) e, Portlandit CaO, Oi-Fm3m (1120) (111) [lli] [OOOI] 4,85 4,81 -0,8 64 Sha 1496 a-AlOOH, Diaspor a-Al,O,, Korund (001) (0001) [loo] [IO;01 4,40 4,75 8,O 63 Lim 1497 (100) (0001) [OIO] [lO*O] 4,86 4,75 -293 G3 Neu 1498 (100) (0001) [OOi] [12*0] 2,83 2,75 -2,8 6G Neu 1499 y-AI(O Hydrargillit y-AlOOH, Bohrnit. (001) (010) [loo] [loo] 2,88 2,86 -0,7 G6 Neu 1500 (Y,U,Ca)(Nb,Fe3+), (Fe,Mn)Nb,O,, Columbit (001) (001) [loo] [loo] 14,60 14,24 -2,5 50 vu1

. [ (0, OH),], Samarskit (Ampangabeit)

1501 (Y,U, Ca) (Nb, Fe3+), (Ca,Na,U),(Nb,Ta,Ti), (100) (100) [OIO] [OOI] 5,32 5,15 -3,2 50 vu1 - W> OH),1 . [O,(O,OH,F)], Hatchetto- (100) (100) [OOI] [OIO] 5,03 5,15 2,4 50 vu1

1502 lith (Uranpyrochlor) 1503 UO,(OH),, Ianthinit [UO,. (OH),]H,O, Epiianthinit (001) (001) [IOO] [IOO] 7,08 7x17 I,3 50 vu1

(Schoepit) 1504 Mn,(O,OH),, Back&omit Mn(OH),, Pyrochroit (010) (0001) [loo] [IO.01 5,79 670 15,7 50 vu1

1505 a-MnOOH, Groutit or-Mn,O,, Tz- Ia ‘(001) (100) [loo] [Ool] 4,58 4,90 7,0 63 Lim 1506 wMn00H MnO,, Pyrolusit (001) (001) [loo] [loo] 4,58 4,39 -4,l 64 Lim

1507 y-MnOOH, Manganit MnO,, Pyrolusit (010) (010) [OOI] [OOI] 5,71 5974 0,5 63 Uel; 50 Vu1 1508 (IlO) (110) JOOI] [OOI] 5,71 5,74 0,5 63 Uel 1509 p-FeOOH, Akaganeit p-Fe,O,, Maghemit ,F ~ (010) (110) [loo] [OOI] IO,48 8,34 -20,4 66 Neu 1510 (001) (110) [OIO] [ITO] IO,48 II,76 12,2 66 Neu 1511 (010) (110) [OOI] [I IO] 3,06 2194 -3,9 66 Neu 1512 &FeOOH, D:--P312 wFe,O,, Haematit (0001) (0001) [IO.01 [IT.01 2,94 2,91 -I,0 66 Neu 1513 &FeOOH a-FeOOH, Goethit (0001) (100) [IO.01 [OOi] 2,94 3,01 2,4 66 Neu 1514 (0001) (100) [12.0] [OIO] IO,20 9,94 -2,5 66 Neu 1515 a-FeOOH, Goethit or-Fe,O,, Haematit (001) (0001) [loo] [IO.01 4965 5903 82 G3 Lim 1516 (loo) (0001) [OIO] [IO-O] lo,02 lo,06 0,4 6G Neu 1517 (100) (0001) [001-j [12.0] 9,12 872 -4,4 G6 Neu 1518 y-FeOOH, Lepidokrokit y-Fe,O,, Maghemit (010) (110) [loo] [OOI] 7,76 8,34 7,5 66 Neu: 60 Ber;

57 Ber

Nr.

1519 1520 I 521

1522

y-FeOOH, Lepidokrokit y-Fe,O,. Maghemit (001) (001) w101 [I TOI 12,54 11.77 -6,1 (Fortsetzung) (010) (110) coo11 [iio] 3.07 2.94 -4.2

Mg,Fe,[(OH),,*C0,]=4H,O. Mg,Fe,[(OH) ,,, -CO,] -4 H?O, (001) (001) [loo] [loo] 6.20 6.21 0,2 Pyroaurit Sjijgrenit

Mg,Fe,[(OH),,-CO,] ~4 H,O Mg(OH),, Brucit (001) (001) [IOO] [loo] 6,20 6,26 190

2.4 Sauerstoffverbindungen der Halogene - Oxygen compounds of the halogens

1523 1524 1525

KClO,, Cz, - P2,/m K,SO,, Arcanit KCIO, KMnO 0 D.iP, - Pnma

(011) (011) (001)

1526 (001) 1527 1528 1529 1530 1531 1532 1533 1534 1535 1536 1537 1535 1539

KClO, RbMnO,, D$,-Pnma KCIO, K,CrO,, Taiapacait

Cu,(OH),ClO,, monoklin Cu(OH),, Dzh-Cmcm NaBrO,, T5 - P2,3 H,O, Eis-I

(100) WI) [;;Y,’ (011) (110) (001) ;::A; \:::I (Iii) (100)

1540 1541 1542 1543 1544 1545 1546

Wirt

Phasen

Gast


Wirt Gast Wirt Gast Wit-t Gast weichung

%

Cu& Chalkosin Cu,FeS,, Bornit

cu,s CuS, Covellin

cu,s Cu,,,,S, Djurleit

(001) (104 (001) (001) (210) (001) (210) (210) (102) (210)

gz:; (010) (010) (0001) (0001) (0001)

r1w w101 WOI

PO11

;t; WI [I101

;::A; [1001 w101 [IO11 [OIOI [oi i]

[z::;

w101 [OIOI [0101

Poll

;z; [OOII LOO11 LOO11 [241] [IO01 [1001 m11 [1001 [lO*O] [IO.01 [IO.O]

2.5 Schwefelverbindungen - Sulfur compounds

2.51 Sulfide - Sulfides

(100) (III)

;Ez; (III) (001) (001)

(001) (111) (0001) (0001) (0001) (1120) (001)

;::A~ [1001 [IO01 [I io] [IO01 P101

roll1 13,44 12,24 -839 35 Kur [i io] 14,91 IS,47 3,s 35 Kur [i2.0] II,92 II,52 -384 59 Fre [IO.01 II,92 II.40 -4,4 50 vut [lO.O] 3.73 3,so I,9 30 Spa [OO.l] 14,92 I6,34 9,s 35 Kur [O~OI 27,33 27,o2 -I,1 70 Geb

9,3o IO,07 8.3 5,64 5,73 1,6 5.64 5,73 186

13,so 14.75 7,I

13,so 14.7s 7,I 14,74 14,60 -0.9 13so 14,7s 7,I

7,37 7,39 o,3 7PO9 7,41 4,s 7,26 7,43 283 4.65 4,Sl 3.4 5.55 5.93 6,3 7,os 7.63 52 5,9s 6,02 o,7 4,74 4852 -4,6 4874 4,52 -4.6 4,74 4,52 -4.6

Lit.

57 Ber 66 hTeu: 57 Ber 50 Vul

50 vu2

33 Bun 33 Bun 49 Mer; 38 Sei; 37 Sei 2 49 Mer: 38 Sei; 37 Sei 2 38 Sei 37 Sei 2 37 Sei 2 37 Sei 2 33 Bun; 32 But 37 Sei 2 37 Sei 2 33 Bun 33 Bun 64 Osw 68 Pet 68 Pet 68 Pet

Phases Planes Directions Periods [A] NO. Sub- De- Sub- De- Sub- De- Misfit Ref.


1547 CuS, Covellin As,O,, Arsenolith (0001) (111) [IO.01 [I TO] 7,60 7,81 298 54Mon 5

1548 cus FeS,, Markasit (0001) (001) [IO.01 [loo] 3,80 3,39 -10,s 50 vu1

is49 cus Fe&, Pyrit (0001) (111) [IO.01 [I iO] 3,SO 3,82 65 50 vu1

1550 cus H,O, Eis-I (0001) (0001) [21.0] lO.O] 4,94 4,52 --a,5 59 Bry

1551 Cu,S,, Digenit Cu,FeS,, Bornit (100) (100) :xt;

[0011 22,24 21,85 -1,s 50 vu1 1552 (111) (111) [Z IO] 3,94 3987 --I,8 50 vu1 1553 Qbs, CuS, Covellin (111) (0001) [ITO] [IO.01 3,94 3,80 -3,6 5OVul 1554 cG%l Cu,S, Chalkosin (111)

;::;; [III] [IO01 12,31 II,92 -3,2 50 vu1

1555 (100) w101 [OIOI 27,%5 27,33 ---I,9 50 vu1 1556, (100) (010) WI 11 [0011 13,lO 13,44 2,6 50 vu1 1557 %%I NiTe,, Melonit (111) (0001) [IIO] [lO*O] 3,94 3986 -2,0 50 vu1

1558 C%S, Ag,S . Cu.& Stromeyerit (111) (001) [Ii01 [loo] 3994 4,06 3,O 50 vu1

1559 c%Al Bi,Te$, Tetradymit (111) (0001) [IlO] [IO-O] 3,94 4,31 9,4 50 vu1 1560 ws5 Cu,BiS,, Wittichenit (111) (001) [I TO] [IO01 7,8S 7,68 -2,s 50 vu1 1561 Ag,S, Akanthit Ag,AsS,, Proustit (010) (IOiO) [loo] [OO*l] 8,46 8,66 2,4 O? Mue 1562 AgS,, Tief-Silberglanz (Ag,Cu),,Sb,S,,, Polybasit (111) (001) [IIO] [100] 27,76 26,12 --5,9 03Mue

1563 49 Ag,SbS,, Pyrargyrit (110) (112.0) [Ill] [OO.l] 8,51 8,72 2,s 03 Mue 1564 AgS,, Hoch-Silberglanz PbS, Galenit (Bleiglanz) (001)

;:t; [I TO] [I TO] 4,28 4,19 -2,l 30 Spa

1565 g:;

[I TO] [I 101 4,28 4,19 -2,l 30Spa 1566 AU CuFeS,, Kupferkies

;:t; [IO01 [IO01 6,06 5,27 --13,0 30Spa

1567 (Chalkopyrit) ;A;;;

[I IO] [I TO] 4,28 3,91 -88,6 30Spa 1568 A@ (Ag, Cu),,Sb,S,,, Polybasit (111) [l TO] [IOi] 17,96 17,73 -I,3 50 vu1 1569 (111) (001) [I lo] [IO01 26,94 26,12 -3.0 30Spa 1570 /LZnS, Wurtzit PbS, Galenit (Bleiglanz) (0001) (111) [IO.01 [IOT] 3,85 4,21 9,4 66 Kle 1 1571 j3-ZnS CdS, Greenockit (IIZO) (IIOO) [OO.l] [OO.l] 6,29 6,73 7,O 68 Cav 1572 (1110) (IIZO) [OO. I] [OO* I] 6,29 6,73 7,O 68Cav 1573 (IIZO) (0001) [Ii.01 [lT.O] 3,85 4,15 7,s 68 Cav 1574 /?-ZnS wZnS, Zinkblende (Sphalerit) (0001) (111) [IO.01 [lOi] 3,85 3,84 -0,3 GG Kle I 1575 (IIZO) (110) [OO*l] [Ill] 6,29 6,28 -0,2 68Cav; 66 Kle 1 1576 (1120) (ITOO) [OO.l] [OO.l] 6,29 6,29 0 68Cav 1577 (1120) (0001) [lI*O] [or*01 7,19 7,19 0 68 Cav 1578 y:' y;' [00-11 [00*11 6,29 6929 0 68Cav 1579 a-ZnS, Zinkblende Ag, kubisch flachenzentriert [1101 r1101 II,52 II,52 0 53 Eng; 49 Mer;

(Sphalerit) 40 Uye 1580 a-ZnS Al, kubisch flachenzentriert 5,43 5372 5,3 49 Rho 2 1581 ol-ZnS Au, kubisch flachenzentriert II,52 II,56 O,3 48 Kub

Phasen I Ebenen 1 Richtungen 1 Perioden [A] 1 Wirt Gast Wirt Gast Wirt Gast Wirt Gast

1582 1553 1584 1585 1586 1587

1588

1589 1590 1591 1592 1593 1594 1595 1596 1597 159s 1599 1600 1601 1602

1603 1604 1605 1606’ 1607 1608 1609

1610

1611 1612

1613 1614

a-ZnS, Zinkblende (Sphalerit)

a-ZnS

a-ZnS a-ZnS a-ZnS

a-ZnS a-ZnS

~ a-ZnS Na,AlF,, Kryolith

a-zns CuCl, Nantokit

a-ZnS NaF, Villiaumit

u-ZnS As,O,, Arsenolith

a-ZnS Sb,O,, Senarmontit

a-ZnS ZnO, Zinkit

a-ZnS

a-ZnS

Cu, kubisch flachenzentriert

a-Fe, kubisch raumzentriert

Ge, Oi-Fd3m Ni, kubisch flichenzentriert Sn, D:{ - 14,/amd

CaF,, Fluorit LiF, Og-Fm3m

ZnFe,O,, Franklinit (Zn-Fe-Spinell)

Ag,S, Argentit

(0001)

(loio) (110)

(113) (011)

[ilo]

[I101 [i io]

[I iol [i io]

[of I] ;;j;; [IIZ]

[OOil [I io] [IO.01

[IO.01

[IO.01 [I io]

[I iol [IO01

3,84 7,68 5943 3,84 9,42 5,43

5,43

5943 16,29

5943 5,43 5,43 5943

16829 16,29 IO,86 16,29 16829

5.43 7,68 5,43

3961 7965

~ 5,lO 1 4.06

IO.15 5,66 498 5.26

17,80 5,46 4,03 5170 4,94

15.64 15864 II,09 15,64 15,6S

5,47 7,84 5,42

-6,o -0,4 -6,i

5,7 7.7 42

-8.3 -391

9.3 0,6

-25,s 5.0

-9,o -4,0 -4,0

2.1 -4,0 -3,7

0,7 %I

-0,2

IO,86 II,52 6,1 5.43 5,42 -0,2 7,68 7359 297

10.84 9812 --15,9 IO,86 II,16 2,s

7,6s 7.8s 2,6 3s4 3,25 --55,4

3,84 3,25 --r5,4

3,s4 3,25 -15,4 7,66 5997 -22,l

7,66 5,97 -22.1 51 Sat 15,46 14867 - 5.1 53 Sat

wercnung % !--I---

~ 48 Kub 48 Kub 48 Kub 46 Miy 46 Miy 56 Seg 48 Kub

~ 56Seg 56 Seg 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 56 Shi 54 Mm 6; 30 S$a: 28 Roy 56 Shi 56 Shi 54 Men 4 54 Mon 4 54 Mon 4: 54 Mon 6 54Mon4;54Mond 62 Ben: 59 Sco; 50 Eva: 49 Mer; 35 Yam 62 Ben; 50 Neu I: 41 Uye; 40 Uye 62 Ben 51 Sat


Periods [A] Sub- De- Sub- Misfit


% Ref.

strate posit &rate posit strate posit

1615 or-ZnS PbCuSbS,, Bournonit (100) (010) [Oll] [OOI] 1616

7,68 8,16 693 50 vu1 or-ZnS, Zinkblende CuFeS,, Chalkopyrit (110) (001) row [I301

1617 5,43 4,15 -23,6 52 Cam.: 30 +a

(Sphalerit) (Kupferkies) (100) (100) PW wo11 IO,86 IO,32 -5,o 30 Spa; 28 Roy:

1618 21Gro

(111) (111) [OII] [OII] 1619

7,68 7,43 -393 30 Spa; 02 Wal or-ZnS CuS, Covellin (110) (1010) [OOI] [00-l] 15,46 16,36 5,s

1620 50 vu1

* (111). (0001) [Ii01 [Il.01 1621

3,84 3,80 -I,0 50 vu1 a-ZnS CuFe,S,, Cubanit (011) (001) [loo] [OIO]

1622 IO,86 II,12 214 50 vu1

or-ZnS PbS, Galenit (Bleiglanz) (110) (110) [OOI] [OOI] 1623

5,43 5,94 9,4 G6Kle I (110) (001) [IIO] [loo]

1624 7,70 5,94 -22,9 66 Kle I

(110) (001) [OOI] [OOI] 1625

5,43 5,94 994 GGKleI a-ZnS CuGaS,, Gallit (100) (001) Kw r1001

1626 5,43 5,35 --I,5 58 Str

(111) (001) [Ol I] iIf 1627

3,84 3,79 --I,3 58 Str a-ZnS FeS,, Markasit (100) (001) [0111 [1001

1628 3,84 3739 --11,7 38Neu

Lx-zns Fe&, Pyrit (100) (100) [Oll] [Oll] 3,84 3,83 -0,3 55 Jan; 50 Vul;

1629 38Neu

(111) (111) -[iTo] [Ii01 1630

3,84 3,83 -0,3 55 Jan: 38 Neu a-ZnS Fe&, Pyrrhotin (Magnetkies) (I I I) (0001) [Oll] [IO.01

1631 3,84 3,44 --IO,4 50 VI41

oc-ZnS Cu,FeSnS,, Stannin (100) (001) roo11 [IO01 1632

5943 5,47 0,7 54 Ram; 50 Vu1 1 (100) (100) [001] [OOI]

1633, IO,86 IO,74 -I,1 50 vu1

a-zns Cu,SbS,,,,, Tetraedrit ‘(001) (001) [I 001 [IO01 1634

IO,86 IO,32 -5,o 30 Spa; 03 Mue (111) (111) [IIO] [I TO] 7,68 7,32 -4,7 50 Vul; 30 Spa;

1635 02 Wal

(110) (110) [Ii01 [IIO] 1636

7,68 7,32 -4,7 30 Spa (131) (131) [IOI] [IOT]

1637 7,68 7,32 -4,7 30Spa

ol-ZnS B-ZnS, Wurtzit (111) (0001) [IIO] [Il.01 1638

3.84 3x85 0,3 50 vu1 a-ZnS or-ZnS, Zinkblende (Sphalerit) (110) (110) [OOI] [OOI]

1639 5,43 5,43 0 GG Kle I

a-ZnS ZnSO,, Zinkosit (100) (001) [IIO] [loo] 7,68 6,74 -12,2 51 Sat 1640 B-CdS, Greenockit ZnO, Zinkit (0001) (0001) [lO*O] [IO-O] 12,45 13,00 4,4 69 Roz 1641 ,!?-CdS Ag,S, Akanthit (01 TO) (100) [00-l] [OIO] 1642

6,72 6,82 I,5 55 Wil 1 (OllO) (100) [lO.O] [OOI]

1643 /?-CdS 4,14 4,20 I,4 55 Wil I

CdS (dotiert) , Ci,-- P6,mc (IIZO) (IIZO) [OO.l] [OO.l] 6,73 1644

6,73 0 68Cav (1120) (1100) .[OO.l] [OO.l] 6,73

1645 6,73 0 G8Cav

(IIZO) (0001) [Ii.11 [IT.01 1646

3,60 3,60 0 68 Cav (1120) (0001) [OO.l] [lT.O] 6,73

1647 7,20 7,O 68Cav

(1 TOO) (1150) [00-l] [00-l] 1648

6,73 6,73 68Cav (0001) (1100) [II-O] [OO.l] 7,20 6,73

1649 /S-CdS -:,5 68 Cav

CL+, Chalkosin (0001) (001) [lO*O] [loo] 1650

12,41 II,85 -4,s 70 Geb (0,001) (001) [12*0] [OIO] 28,66 27,33 -4,6 70 Geb

.- 1-r.

1651 1652 1653 1654 1655 1656 1657 1658 1659 1660 1661 1662 1663 1664 1665 i666 1667 1668

1669 1670 1671

1672 1673

1674

1675 1676

1677

1678 1679 1650 1681 1682 1683

1684

Phasen Ebenen Richtungen Perioden [A] Ab- . . weicnung Y .> J&IL

Wirt Gast Wirt Gast Wi* Gast Wirt Gast %

/I-CdS, Greenockit HgS, Cinnabarit (IIZO) (0001) [Ii’O] [Ii’01 4,14 4,14 68 Cav (1120) (1120) [OO.l] [OO.l] IO,08 9.50

A 68 Cav

j3-CdS CU i,& tetragonal (0001) (100) [IO-O] [OIO] 4,14 4,Ol -3,1 70 Geb (0001) (100) ‘[12*0] [OOI] 14.33 11927 -21,4 70 Geb

/%cds CU i,& Djurleit (0001) (010) [IO*01 [1001 16,55 15.7~ -591 70 Geb (0001) (010) [12.0] [OIO] 14,33 13356 - 5,4 70 Geb

p-CdS a-US, Hawleyit (0001) (111) [IO-O] [l IO] 4,14 4,12 -0.5 68 Ho1 3 (IIZO) (111) [Ii*01 [llO] 3.70 4,12 11.4 68 Cav (1120) (110) [OO. I] [001-J 6.73 5,82 -13.5 68 Cav

/I-CdS HgS, Metacinnabarit (1120) (110) [OO. I] [I TO] 6372 8,27 2391 68 Cav .(iiZo) (110) [00-i] [till 6372 7,61 1392 68 Cav

&CdS a-ZnS, Sphalerit (Zinkblende) (IIZO) (110) [00-i] [i it] 6973 6.28 -697 68 Cav (1150) (111) [ii-o] [I io] 7.19 7,68 698 68 Cau (IIZO) (III) [00-i] [iro] 6973 7,68 14,l 68 Cav (I Too) (110) [ii .o] [i it] 4,15 4,70 13.3 68 Cav

/3-CdS j3-ZnS, Wurtzit (ii20) (0001) [Ii.01 [Ii-o] 7.19 6,67 -722 68 Cav yp) ;;;;;I [;;;;I [I i 4 6,73 6,67 -0.9 68 Cav

Cu,FeSnS,, Stannin CuFeS,, Chalkopyrit [1001 5,46 5,24 -4,0 54 Ram; 50 Vul: (Kupferkies) 30 Spa; 29 Gru

(100) (100) 10972 to,30 -399 50 Vul: 29 Gru Cu,FeSnS, Cu,SbS,,z,, Tetraedrit (Ill) (111)

p1 ply;

m;; 7,74 7.30 -5,7 50 VI.41

PbS, Galenit (Bleiglanz) Ag, kubisch fllchenzentriert (100) (100) m11 5294 4,08 -3193 53 Eng; 52 Neu 3 40 Uye

(001) (loo) [Ii01 [ool] 4,21 4,0s -391 49 Mev PbS As, Die-Rjm (001) (110) [iio] [ii01 4,21 4,12 -2,i 63 Cap PbS Au, kubisch flachenzentriert (001) (001) [ilO] [IO01 4,20 4,07 -3,l 69 Han

PbS Bi, D&-i- R3m (lio) (1000) [Ill] [00-l] IO,29 II,83 IS,0 50 vu1 PbS Cu, kubisch fkichenzentriert (001) (110) [II01 [Ill] 4,20 4,19 -0,2 47 Miy PbS Sb, D$-Rjrn (100) (ioir) [OIlI [ol.Ol 4,21 4,30 281 50 vu1 PbS Sn, D$‘,- 14Jamd (100) (100) [OIO] [OIO] 5,94 5883 --I,9 65 Leg

(100) (100) [OIO] [OOI] 5994 6,36 7,1 65 Leg (100) (101) .[ooi] [Toll 5994 6,64 II,8 65 Leg (100) (loi) [ooi] [oiol 5894 5,83 -I,9 65 Leg (100) (101) [OOII [OIOI 5.94 5,53 -I,9 65 Leg

PbS AgBr, Bromargyrit (100) (100) [OOII [OOII 5994 5377 -299 49 Mer; 31 Slo; 28 Roy

PbS AgCl, Chlorargyrit (100) (100) [OOI] [OOII 5,94 5,55 -6,6 49 Mer; 31 Slo; 28 Roy

Phases No.

Substrate Deposit strate Sul??& / grtizit ) g.’ jiltit Mr Ref.

1685 PbS, Galenit (Bleiglanz) PbCl,, Cotunnit (001) (010) [I101 [1001 8,40 9,06 7,9 49 El1 1686 (001) (012) [IIO] [loo] 8,40 9,06 7,9 50 Vul; 49 El1 1687 (001) (110) [I101 [OOI] . 8,40 9,04 7.6 50 Neu I; 49 El1 1688 (001) (011) [I TO] [loo] 8,40 9,06 7,9 30 Spa; 03 Mue;

84 Bet 1689 (001) (110) [I TO] [IO01 8,40 9,06 7,9 45Ram 1690 (001) (010) [IO01 [IO01 8,40 9,06 7,9 45 Ram 1691 (100) 1;;;;

PbS w101 [1001 16,80 18,12 7,9 50 vu1

1692 CsF, 0; - Fmjm (100) PO11 I3011 5,94 6,02 1,3 28 Roy

1693 PbS NaCl, Halit (100) (100) [OOI] [OOI] 5,94 5.64 --Sal 50 Neu 1; 49 Mer; 48 Eli; 31 Slo;

PbS 28 Roy

1694 KBr, Og-FmSm (001) (001) r1001 .[I001 5,94 6,60 II,1 49 Mer; 31 Slo

1695 PbS KJ, Og-Fm3m (001) (001) [IO01 [1001 5,94 7,07 19,O 49 Mer; 36 Sei 1696 PbS Na,AlF,, Kryolith (100) (110) WI PO11 17,82 15764 -12,2 56 Shi 1697 PbS PbCl(OH), Laurionit (001) (100) [IO01 [0011 5,94 7,12 19,9 50 vu1 1698 (001) (100) [I101 roo11

PbS 8,40 7,12 --15,2 50 vu1

1699 LiBr, Og-Fm3m (001) (001) [loo] [loo] 5,94 5,50 -7,4 . 49Mer

1700 PbS LiF, 0: - Fmjm (100) (100) [OOI] [OOI] II,88 12,09 I,8 5G Shi 1701 (100) (100) LOO11 WI11 5,94 5,70 -4,0 56 Shi 1702 (100) (110)

PbS WI [OOI] II,88 12,09 I,8 5G Shi

1703 LiJ, Og-FmSm (100) (100) roo11 [OOII 5,94 6,01 12 28 Roy

1704 PbS NaBr, Og-Fmjm (001) (001) [IO01 [1001 5,94 5,97 0,5 64Sei 1705 (100) (100) [OOI] [OOI] 5,94 5997 0,5 57 COG; 49 Mer;

36 Sei; 31 Slo; 28 Roy

1706 PbS NaJ, Oi-Fm3m (100) (100) [OOII roo11 5,94 6,47 8,9 49 Mer; 31 Slo; 28 Roy

1707 PbS NH,Br, OL--Pmjm (100) (100) [OOI] WI 11 5,94 5,74 -394 47 Sch; 30 Spa 1708 (100) (100) [IIO] [OOI] 4,20 4,06 -3,3 36Sei;30Spa 1709 PbS N&Cl, Salmiak (100) (100) [loo] [IIO] 5,94 5,46. -8,1 3OSpa 1710 (100) (100) [IIO] [OOI] 4,20 3,87 -7,9 30Spa 1711 PbS NH,J, O$--Pm3m (001) (001) [loo] [loo] 5,94 7,25 22,l 49 Mer 1712 . PbS RbBr, Og-Fm3m (001) (001) [loo] [loo] 5*94 6,87 15,7 49 Mer; 31 Slo

1713 PbS RbCl, Oi--Fmjm (001) (001) [loo] [loo] 5,94 6,55 IO,3 49 Mer; 31 So 1714 PbS RbF, Oz-Fmjm (100) (100) [OOI] [OOI] 5,94 5964 -5,l 28 Roy

1715 PbS SnJ,, Ti-Pa3 I

(001) (111) 1 [IIO] [ITO] 4,20 4,28 1,9 54 Mon 4

Nr.

1716

1717

PbS, Galenit (Bleiglanz) (Fortsetzung)

PbS

171s 1719 1720 1721 1722 1723 1724 1725 1726 1727 1728 1729 1730 1731

PbS

PbS

PbS Pb,O, Oi-PnSm PbS Sb,O,, Senarmontit

PbS PbS PbS

1732 PbS 1733 PbS

PbS

1736 PbS

1737 173s 1739 1740 1741 1742 1743 1744 1745 1746 1747

PbS HgS, Cinnabarit PbS CuS, Covellin PbS g PbS .2As,S,, Gratonit PbS CdS, Greenockit

PbS PbS

PbS

PBS

Wirt


Gast

SnJ,. G-Pa3

KCI, Sylvin

NaF, Villiaumit

As,O,, Arsenolith

Ag,S, Akanthit FeAsS, Arsenopyrit Bi,S,, Bimuthinit (Wismut-

glanz) Cu,FeS,, Bornit P.bCuSbS,. Boumonit

CuFeS,, Chalkopyrit (Kupferkies)

Cu,S, Chalkosin

Cd!?, Hawleyit Ag,S, Hoch-Argentit

AgBiS,, Hoch-Schapbachit

HgS, Metacinnabarit

Wirt Gast Wirt Gast Wilt Gast

Ab- weichung

%

(001) (111) [iio] [lla 8,40 7.42 --11,7 54 Mon 4

PW PW 5,94 6,29 5,9

[IW [1001 [I 001 [I 001 [iio] [I101 [I101 [II01 [I TO] [IO01

;:i:; PO11 [lie]

[I 001 [I101 [Ii01

;: ii; [IlV [I IO] [lla [iio] [I 121 [ii01 II1001 row [Ol -01

5,94 4.63 -22,1 5,94 6,55 IO,3 FL94 7.53 31,s

11,SS 13,56 14,l 8,40 7883 -6,s

12,60 13.56 796 4.20 5939 2893

12,60 13,6S 8,6 4,20 3,95 -6,o

11.88 13.68 15.2 II,88 il,SS -0.3 4,21 4,23 0.5 5994 5.66 -4,7 4,21 4.13 -I,9

[Ol 11 [lie] 4,20 3,87 -7,9 PI11 WOI 8,40 s,71 3,7

(010) PW WI 01 S,91 S,71 -2,2 (001) [fool [IO01 5,94 525 -II,6

(111)

(001) (100) (oii) (001)

[:::; (100) (111) (100) (111) (001)

[oii] [I io] 4,20 4.72 12,4

[I101 PO11 [1111 [1101 rI1101 [fool

;%;

;i::; [I~01

[bl .O] [IO. I] PW [lO.O] [IO.01 [1W ;y?;

PJo11 [oii] [I101

4,20 4,14 -I,4 17.82 16879 -58 lo,29 lo,56 %6 4,20 4.15 -,I 2 4,20 4,15 -I,2 5894 582 -2,0 5.94 6.34 6,7 4,20 4,48 6,7 5,94 5.65 -4,9 4,21 4,00 -50 4,20 4,13 -I,7

49 Mer: 31 Slo; 28 Roy 56 Shi 56 Shi 54 Mon 6 54 Mon 6 54 Mon 6 54 Mon 6 53 Hag 54 Mon 7 54 Mon 7 54 Mon 7 54 Mon 7 41 Neu; 30 Spa 41Neu 50 Vul; 41 Neu; 38Neu;30Spa 41Neu;30Spa 50 Vul; 41 Neu: 30Spa:86 Hin 50 vu1 41 Neu; 03 Mue

50 Vul: 41 Neu; POSpa 53 Sat 50 Vul; 41 Neu 59 He1 62 Sat 62Sat 62 Sat 50 vu1 50 vu1 50 vu1 50 vu1 53 Sat

Perioden [A] Lit.

Phases Planes Directions NO.

Periods [A] Sub- De- Sub- Misfit *


% Ref.


174% PbS, Galenit (Bleiglanz) (Ag, Cu),,Sb,S,,, Polybasit (100) (100) [OOI] [OOI] 23,72 2339 0,7 50 vu1

1749 PbS Ag,SbS,, Pyrargyrit (111) (0001) [OIT] [12.0] 4,21 4,79 13,s 50 vu1

1750 PbS FeS,, Pyrit (100) (100) [Oll] [Oll] 4,20 3,84 --8,6 41 Neu; 38 Neu 1751

PbS (111) y;; [lm [IN 4,20 3;84 --8,6 38 Nei

1752 Fe,S, Pyrrhotin (Magnetkies) (I 00) PbS

[0011 row 1753

5,94 5,69 -4,2 41 Neu ‘CuSbS,,,,, Tetraedrit (001) (001) [IIO] [IIO] 8,41

1754 7,32 --13,0 Gl Min; 41 Neu

(001) (001) [loo] [IIO] 1755

II,88 10,98 -7,6 61 Min

(001) (001) [3101 [I101 1756 PbS

7,05 7,32 3,8 Gl Min PbSO,, Anglesit (001) (001) [I101 [loo] 8,40 8,45 0,6 53 Hag; 44 Ram:

42 Hag 1757 (001) (210) [OIO] [OOI] 5,94 6,93 1758

16,7 45 Ram: 42 Hit y;; (010) [0111 [1001 8,40 8,45

1759 66 50 Vul

(100) [0101 COlOl 1760

5794 5,38 -9,4 50 vu1 (100) (104) [OIO] [OiO]

j761 5,94 5,38 -9,4 50 vl.41

PbS (100) y;; PO1 [fool 5,94 8,45

1762 42,3 50 vu1

PbNa,[OH . Cl. SOJ, Caracolit 1: CI;; [OW roo11 5,94 615 50 vuz 1763

3,s 000) P11 roo11 4,20

1764 4,lO -2,4 50 vu1

(100) (110) roo11 [OOfl 5994 615 50 va41 1765

3,s (100) (110) [01 l] [OOI]

1766 4,20 4,lO -2,4 50 vu1

(100) (010) [OOI] [OOI] 5,94 635 1767

3,s 50 vu1

PbS (100) (010) [Oll] [OOl]

1768 4,20 4,lO

PbTe, Altait -2,4 50 vu1

(001) (001) [loo] [loo] 5,94 6,45 86 50 vu1

1769 PbS Bi,Te,S, Tetradymit (111) (0001) [ITO] [IZ.O] 4,20 3,74 -II,0 50 vu1

1770 PbS NiAs, Nickelin (110) (0001) [IIO] [Ol.O] 1771

4,20 3,58 -14,s 70 See (110) (0001) [OOI] [21-O] 5394 6,20 70 See

1772 4,4

(111) (0001) [IIZ] [Ol.O] 1773

7,28 7,16 -I,6 70 See (111) (0001) [ITO] [21-O] 12,60 12,40

1774 PbS -I,6 70 See

Pb,[Cl, . CO,], Phosgenit (100) (001) [Oll] [loo] 8,40 Cl5 -3,O 50 vu!!

1775 PbS NaCN, Og-FmSm (001) (001) [loo] [loo] 5,94 5,84 -I,7 49 Mer; 31 ,510

1776 PbS KCN, 0; - Fm3m (100) (100) [OOI] [OOI] 5,94 6,56 IO,4 49 Mer; 31 Slo;

1777 As& Auripigment 28 Roy

As,O,, Arsenolith (010) (111) [IO21 [IIO] 14,26 15,62 9,s 54 Mon 4

177% ASS, Realgar As.&, Auripigment (100) (010) [OOI] [loo] 13,14 II,49 -12,6 50 vu1

1779 Cu,AsS,, Enargit Cu,(Fe, As, Sn)S,, Colusit y; y; W~OI l-OfQ 1780

7344 7,51 0,9 60 Bid

D101 [I TO] 1781 Cu,AsS,

7,44 7,51 0,9 GO Bid BaSO,, Baryt (Schwerspat) JOOI) (001) [IIO] [IIO]

1782 Cu,AsS, 936 IO,41 5,6 03 Mue

CugsS,a. Chalkopyrit (Kupfer- [;cI;; (112) [loo] [II i] 6,47 6,36 50 Ito 1783

-I,7 (112) [OIO] [I TO] 7,44 7,42 -0,3 50 It0

Phasen Ebenen Richtungen Perioden [A] hb- Nr. weichung Lit.

Wirt Gast Wirt Gast Wirt Gast Wirt Gast %

1784 Cu,hsS,, Enargit Cu,AsS,,,,, Tennantit (100) (III) [OIO] [OII] 7.44 7,23 -2,S 60 Bid 17s5 (001) (III) [oio] [iii] 7.44 7,23 -2,S 60 Bid 17s6 Cu,AsS, u-ZnS, Zinkblencle (Sphalerit) (001) (111) [loo] [lIzI 6.47 6363 2.5 50 vu1 17s7 (001) (111) [OIO] [IIO] 7.44 7.68 3.2 50 vuz 17s Ag,AsS,, Proustit Fe&, Markasit (oli2) (loo) [Zl.o] [olo] 9.30 IO,80 16.1 50 Vul; 30 Spa 1789 Pb,As,S,, Rathit- Ag,AsS,, Proustit (010) (loio) [loo] [oomi] St43 8.66 2,7 50 vu1

1790 Pb,As,,S,,, Rathit- -$Pb,O,,. Baumhauerit (010) (100) [loo] [OIO] 8.43 8.33 -I,2 50 Vul

1791 PUs,& PbTlAs,S,, Hutchinsonit (010) (010) [0011 wo11 7*91 8,16 382 50 Vul

1792 PbAs,S,, Sartorit As,Pb,O,,, Baumhauerit (010) (010) [OOI] [OOI] S,36 7,s9 -536 50 vu1

1793 PbAs,S, PbTlAs,S,, Hutchinsonit (100) (100) [OOI] [OOI] S,36 $16 -22.4 50 Vul

1794 Sb& Antimonit As,O,, Arsenolit (010) (110) [ooi] [I io] 3,S4 3.92 &I 54 Mon 4 1795 (010) (110) [loo] [OOII II,22 II,08 -I,2 54 Mon 4 1796 Sb,S, Pb,Sb&, Boulangerit (001) (010) [1001 [I 001 22,44 21~6 -3,9 50 VUL 1797 Sb,S, Sb,O,, Senarmontit (010) (110) [ooi] [lio] 3854 3.95 2,9 54 Mon 4 179s (010) (110) [loo] [OOI] 11.22 11.16 -0.5 54 Mon 4 1799 Sb,S, Ag,SbS,, Pyrargyrit (001) (001) [loo] [loo] 11.22 11.06 -I,4 50 vuz

1 so0 CuS,Sb, Chalkostibit .4g, kubisch flichenzentriert (001) (001) [loo] [IlO] 6,02 577 -4,2 50 Vul

IS01 Cu,SbS,,,,, Tetraedrit B&S,, Bismuthinit (Wismut- (Ill) (100) [i io] [ool] 3.65 3.95 9,o 50 vu1 glanz)

1 so2 Cu,SbS,,,S CuFeS,, Chalkopyrit (Kupfer- (111) (111) [i io] [i To] 7932 7842 1,4 30 Spa; 03 Mue kies)

1 so3 (001) (001) [loo] [loo] 10,34 IO,50 I.5 54 Ram IS04 Cu,SbS,,,, PbS, Galenit (Bleiglanz) (001) (001) [IIO] [1001 5,4x 5,94 8.4 50 Vul; 03 Mue IS05 (lil) (lil) [ilo] [ilo] 3,65 4,21 15,3 50 Vul; 30 Spa I So6 Cu,SbS,,,, Fe&., Pyrit (001) (001) [loo] [loo] 10.34 IO,52 46 50 Vul; 30 Spa:

03 Mue 1 SO7 CGbS,,,, a-ZnS, Zinkblende (Sphalerit) (111) (001) [ii01 W;; 3,65 3,S9 6,6 30 Spa; 03 Mue 1 SOS (Ag, Cu) ,,Sb,S,,, Polybasit CuFeS,, Kupferkies (Chalko- (001) (iii) [ilo] 29315 29,6S 1,s 50 t’ul; 03 Mue 1 so9 writ) (001) (iii) [ioo] [ilo] 26.12 29865 1396 50 vu1 IS10 (4s CuhSbAl ‘Ag,SbSd, Stephanit (001) (001) [loo] [loo] 26,12 2544 -2,6 50 Vul; 30 Spa;

03 Mue IS11 (010) (010) [loo] [loo] 26.12 Z&44 -2.6 50 VUZ’ lSl2 Ag,SbS,. Pyrargyrit Ag,GeS,, Argyroclit (loio) (010) [iomO] [loo] 11,03 12,22 10,s 02 Wal IS13 Rg,SbS, Ag$, Hoch-Silberglanz (IIZO) (110) [oo- i] [I ill $72 s.52 -2,3 50 VZll

IS14 i\g,SbS, Ag,AsS,, Proustit (0001) (0001) [IO-O] [lO.O] II,03 10,SO -2,l 50 vu1 ISIS PbCuSbS,, Boumonit PbS, Galenit (Bleiglanz) (100) (001) [OOI] [I 101 7,Sl s,40 736 30 Spa: 03 Mue IS16 (100) (010) [llO] [OOII 4,76 5.94 24,s 3Q Spa; 03 ivue



% Ref.


1817 Pb,Sb,S,,, Boulangerit Pb,Sb& Jamesonit (010) (010) [OOl] [OOI] 8109 8,06 -0,4 50 vu1 1818 Pb,Sb,S,,, Falkmanit Pb,Sb,S,,, Boulangerit (010) (010) [OOI] [OOI] 8,06 co9 0,4 50 vu1 1819 Pb, (As, Sb) $,, Geokronit PbS, Galenit (Bleiglanz) (100) (100) [0011 w11 8.50 8,40 -1,2 50 vu1 1820 (101) (100) w101 w11 7,99 8,40 591 50 vu1 1821 Bi,S,, Bismuthinit As,O,, Arsenolith (010) (110) [OOI] [Ii01 7,94 7,81 -I,6 54 Mon 4 1822 (010)

;::i; r1001 KJo11 II,13 II,05 -67 54 Mon. 4

1823 Bi,S, Sb,O,, Senarmontit (010) rm11 [I IO] 7,94 7,87 -099 54 Mon. 4 1824 (010) (110) [1001 [OW II,13 11,16 0,3 54 Mon. 4 1825 BiPbCuS,, Aikinit CuS, Covellin (001) (0001) [IOO] [IO-O] II,32 II.40 0,7 50 vu1 1826 PbBi,S,, Galenobismutit PbS, Galenit (Bleiglanz) (100) (100) [OOI] [Oll] 4,OB 4,21 3,2 50 vu1 1827 AgBiS,, Hoch-Schapbachit AgBiS,, Schapbachit (001) (100) [loo] [OOI] 5,64 5769 69 50 vu1 1828 (001) (100) [I101 ro101 7,97 7,87 -I,3 50 vu1 1829 MO!& Molybdanit Ag, kubisch flachenzentriert (0001) (111) [IO.01 [I TO] 3.16 2,88 -8,9 69 Hon; 61 Kam;

53 Eng;51 Kai; 51 Bla; 49 Mer; 48 Miw; 40 Uye

1830 MoS, Au, kubisch flachenzentriert (0001) (111) [21 .O] [I TO] 9,12 8,64 -5,3 51 Kai 1831 (IOiO) (202) [Ol .O] [rzr] 3316 3,34 5,7 G5Tri 1832 (0001) (111) [fl .O] [T2i] 3,16 3,34 65 Tvi 1833 (1120) (202) [il .O] [i2T] 3,16 3,34 ::; 65 Tri 1834 (0001) (111) [IO.01 [I IO] 3,16 2,87 -92 69 Hon; 51 Kai 1835 MOS, Cu, kubisch flachenzentriert (0001) (111) [21.0] [Ii01 2,28 2,56 12,3 51 Kai 1836 MoS, J, Di{-Cmca (0001) (100) [IO.01 [OOI] 9,48 9,78 32 54 Mon 4; 53 Mon I 1837 (0001) (100) [12.0] [OIO] 456 4,78 48 54 Mon 4; 53 Mon 1 1838 MoS, MO, kubisch raumzentrier-t (0001) (001) [II .O] [loo] 12,64 12,48 --I,3 64 Gil

1839 MoS, Ni, kubisch flachenzentriert (0001) (111) [21 .O] [I IO] 4,56 4,98 92 51 Kai 1840 MoS, Pt, kubisch flachenzentriert (0001) (111) [21 .O] [I TO] 9,12 8,31 -8,9 51 Kai 1841 MoS, Hg JZ, Coccinit (0001) (010) [lO.O] [loo] 9948 9,34 -I,5 54 Mon 4; 54 Mon 6 1842 (0001) (010) [12.0] [OOI] 21,84 21,96 65 54 Mon 4; 54 Mon 6 1843

I (0001) (010) [IO.01 [OOI] 632 7132 15,8 54 Mon 4; 54 Mon 6

1844 (0001) (010) [12.0] [loo] 5,48 4,67 -14,B 54 Mon 4; 54 Mon. 6 1845 MoS, HgBr,, C,Z, - Cmc2, (0001) (010) [lO.O] [loo] 9,48 924 --2,5 54 Mon 4; 53 Mon I 1846 (0001) (010) [12*0] [OOI] 13,68 12,45 -9.0 54 Mon 4; 53 Mon I 1847 MoS, HgCl,, Dif - Pnma (0001) (001) [lO*O] [loo] 6,32 5,96 -5,7 54 Mon 4; 53 Mon I 1848 MoS, Hg,Cl,, Kalomel (0001) (110) [IO-O] [OOI] 9,48 IO,91 15,1 54 Mon 4; 53 Mon I 1849 (0001) (110) .[12.0] [IIO] 9,12 9,48 3,9 54 Mon 4; 53 Mon I 1850 (0001) (110) [lO.O] [I IO] 3816 3916 0 54 Mon 4; 53 Mon I 1851 (0001) (110) [12.0] [OOI] 9,12 IO,91 19,6 54 Mon 4; 53 Mon I

Nr.

1852

1853 1854 IS55 IS56

IS57 1858

1559 IS60 IS61 1 S62 1 S63 IS64 IS65 I S66 I S67 IS65

1 S69

IS70

.1s71

1S72

IS73 IS74 1S75 1576 1S77 1S7S

IS79 1850

ISSI

1 ss2

1 ss3

1SS4

Wilt

Phasen Ebencn Richtungen

Gast

MO’S,. Molybdinit MoS, MoS,

MoS, IMOS, MoS, MoS,

MnS, Alabandin MnS MnS MnS MnS Fe!%,, Markasit

Fe&

FeS, FeS, FeS,, Pyrit

FeS, FeS, FeS,

Na,AIF,, Kryolith LiF, OP,-Fmjm Pb Ja, Did-Pjrnt

Sn Ja, Tz- Pa3 As,O,, Arsenolith Sb,O,, Senarmontit MOO,, Molybdit

KF, Carobbiit NaCl, Halit LiBr, O{-Fm3m LiCI, Oi-Fm3m Fer, S, Pyrrhotin (Magnetkies) Ag,AsS,, Proustit

Fe&, Pyrit

Fe,, S, Pyrrhotin (Magnetkies) a-ZnS, Zinkblende (Sphalerit) Ag, kubisch flPchenzentriert

CoAsS, Cobaltin NiAsS, Gersdorffit PbS, Galenit (Bleiglanz)


(OfI) (001) (0001)

[E;’ (ill)

(iii)

(010) (010) (010) (010)

;::i; (010) (010)

[:A:;

(100)

(100)

(iO0) (0001)

(toil)

I%’ (100) (100) (ioio)

(001)

(100)

[10.0-J [lO.O] [IO.01 [lO.O] [61-O]

[IO-O]

[IO-O]

[21*0] [92 - 01 [91*01

;::*:; [Zi:o] p-01 Kg;

[IO01

ww l-OOll row [I101 [I 001 [I 001 [I101 [I 001 [I To] [1W [1W [IO01

[01U [IO01 [12.0] [lO.O] [i io]

[I101 r1101 [OW wo11

[El;; [pool WI [I 001 [I 001 [IO31 [I 001 WI PO~I [00~1 [IO.01 [01-O] [IO-O]

;z;

WOI [01-O] LflOl [I 001

9848 9.63 3,16 4.03

15.80 IS,75 6,32 6,86

17,54 17,29 15,so 15868 IS.80 IS,82 II,07 lo,96

6,48 7.35 4,40 3.69 8.37 8,38 8.37 7,90

1 I,07 IO,96 3,16 3,95

11,41. li.S5 12,56 41,so

5,22 5340 5,22 5,64 5322 5,49 5,22 5,14

3,70 3,44 10.17 IO,76 IO,17 lo,76

5,ss 5,42 3,39 3,s3 5.59 5,42 3.39 3,44

3.39 3,S4

5941 4,0s

(100)

(100)

(111)

(110)

Dw roo11 WI

WI roo11 [i io]

St61 397

5,7f 5,s 4,20 - 22,4

[I io] WI

5941

5841

5341

7,9s s,oi


%

I,6 27,s

-0,3 8,s

-I,4 -0,s

61 -I,0 1319

-16,1

-;::, -I,0

25,o 3,9

-6,1 3,4

890

592

-1,s

- 7,o

5,s 5,s

-2,9 1390

-3,o 1,s

13,3 -24,6

0,4

Lit.

56 Shi 56 Shi 54 Mon 4; 53 Mon 1 54 Mon 4: 53 Mon 1 54 Mon 4; 53 Mon I 54 Mon 4: 53 Mon f 54 Mon 4; 53 Mon 1 54 Hoc f 54 Hoc I 54 Hoc ? 52 Sia 52 Sia 52 Sia 52 Sia 52 Sia 52 Sia 28 Roy 28 Roy 28 Roy 28 Roy 50 vu1

03 Mue 03 Mue 50 vu1 50 vu1 50 Neu I 03 Mue 50 Vu1 53 En,b; 49 Mev; 40 Uye 58 Min 50 vuz

50 Vd; 30 Spa; 28 Roy: 03 Mue; 02 Wal 60 Sch

-- Phases Planes Directions -_ .- -- . -

Periods [A] 1 Misfit ^. . - n-1 No.

1883 1886 1887 1888 1889

1890 FeS, 1891 FeS, 1892 FeS,

‘895 ‘896

‘905

1 go6 ‘907 1908 ‘909 1910 1911 1912

Substrate Deposit

Fe&, Pyrit (Fortsetzung) PbS, Galenit (Bleiglanz) FeS, Fe&, Markasit

FeS,

Fe,-& Pyrrhotin (Magnet- kies)

Fe&S

Fe,,S PbS, Galenit (Bleiglanz)

Fe& Fe&, Markasit

Fe&S Fe&S Cu,FeS,, Bomit Cu,FeS,

Cu,FeS, Cu,S, Chalkosin

Cu,FeS, CuS, Covellin Cu,FeS, Cu,FeS,, Idait

Cu,FeS, Cu,FeS,

Cu,FeS,

NiTe,, Melonit A+%, Sb, Fe),(Te, S),,,

Nagyagit Bi,Te,S, Tetradymit

CuFeS,, Chalkopyrit (Kupfer- kies)

Fe,O,, Magnetit or-Z&, Zinkblende (Sphalerit)

AWb, Sb, Fe),(Te, S),,, Nagyagit

Fe,O,, Magnetit


(Fe, Ni),S,, Pentlandit ASS, Realgar a-Fe,O,, Haematit CuFeS,, Chalkopyrit (Kupfer-

kies)

Sub- Ue- Sub- strate posit strate

(‘00) (‘00) (‘00) (“0) (“1)

(00’) (‘00) (00’)

(0001)

(0001)

(0001) (1010)

(0001) (1010)

(oog

~ ;;;;y;

(1010)

(“1) (100)

(‘1’)

(‘00) (111)

(“1) (111)

[YE/

(00’)

(“1)

(‘00)

[~~~; (0’0) (“1)

(00’) (00’) (00’)

(1”)

(*I21

(“1) (‘W

(00’) (‘00)

[ii:; (“1) (00’) (0001) (‘00)

(“1)

[:E; (0001)

g:::;

[YE:;’

(0001)

PO1 PW PW

~~~~;

[1001 [IIO] [I 001

[21-O]

[lZ.O]

[IO-O] [OO - I]

[IO.01 [OO. I]

[IO.01 [Ol *O] [IO.01

[f2.0]

[I TO]

PO1

[Ofl]

;%; CllOl

[:I:; [I TO] r1001

[I TO]

Ue-

I posit

[I TO] [I101 [I iO] [OOII [I iO]

[I IO] [I101 [IO01

[I TO]

[if21

[I TO] [OW

[fool ww

[1001 [;y;;

[1001 [IO-O]

imo1

[Oil]

PW [ITO] [IO.01 [lf*Ol. [12*0]% [IO.01 m11

[12.0]

>ub- Ue- strate posit

5,41 4,20 -22,4 GO Kos; 50 Vu1 5,41 5,6O 3,5 52See;3OSpa 5,41 5,60 3,5 30 S$a; 03 Mue 5,41 5,42 02 30 Spa: 02 Wal 3,83 3,72 -2,9 28 Roy

5,42 5,93 994 50 vu1

3,83 3,84 O,3 38 Neu IO,82 12,50 15,5 50 vu1

5,96 5,93 -0,5 50 vu1

456 4,55 -0,2 57 vu1

3,44 3,72 871 5,69 5,94 4,4

6,88 5,94 --13,7 5,69 5,42 -4,7

3,44 3,39 --I,5 3,44 3,39 -I,5 3,43 3,55 3,5

9912 929 I,9

15,47 15,12 -2,3

IO,94 IO,50 -4,0

12,24 II,58 -5,4

12,24 13,44 9,8 15,47 14991 -3,6

3,86 3,76 -2,6 12,24 II,70 -4,4 IO,94 IO,14 -793

3,86 3,83 -0,8 32,82 30,31 -7,6

3,86 3,75 -2,8 50 vu1

% n.e1.

50 Vul; 30 S$a 57 Vul; 50 Vul; 03.Mue; 02 Wal 57 Vul: 30 Spa 50 Vul: 30 spa; 03 Mue: 02 Wal 02 Wal 50 Vul; 30 Spa 50 vu1

50 vu1

50 vu1 59 Fre; 50 Vul; 35 KUY; 30 S9a 59 Fre; 50 Vul; 30 Spa; 29 Gru 50 Vul; 30 .@a 30 S$a; 29 G9u 54 Barn; 30 Spa 59 Fre 59 Fre 50 vu1 50 vu1

Phasen Ebenen Richtungen Nr.

Perioden [A] Ab-

Wirt Gast Wirt Gast Wirt weichung Lit.

Gast Wirt Gast %

1914 CuFeS,, Chalkopyrit Fe,Od, Magnetit (111) (111) [Ii01 [Iii] 7.42 7.26 -2.2 50 vu1 (Kupferkies)

1915 CuFeS, Cu,S, Chalkosin (iii) (ill) [lio] [lie] 14,84 14,91 0,5 50 vuz 1916 CuFeS, CuS, Covellin (iii) (0001) [lio] [lo.01 3,7o 3976 I,6 50 vu1 1917 (112) (0001) [lie] [lo.01 3,7o 3,76 I,6 35 KUY 191s CuFeS, CuFe,S,, Cubanit (III) (001) [Iii] [loo] 6935 6943 1,3 54 Ram; 50 Vul;

30 Spa; 29 GYU 1919 CuFeS, PbS, Galenit (Bleiglanz) (001) (001) [loo] [loo] 5,25 5,94 13,l 03 Mue I 920 (ill) (Ill) [iio] [lie] 3,71 4,19 12,9 50 Vd; 30 Spa 1921 CuFeS, Co&, Linneit (100) (100) [OOI] [OOI] IO,48 9,4o -lo,3 50 vu1

1922 CuFeS, Fe&, Markasit (Ill) (001) [lli] [loo] 6,36 6.78 6.6 50 vu1

1923 CuFeS, 8 (Ag, Cu),S . Sb,S,, Polybasit (001) (111) [iio] [lio] 7,42 7957 zo 02 Wal 1924 CuFeS, Fe&, Pyrit (III) (III) [lie] [lio] 3870 3882 312 50 vu1 1925 (100) (100) [OOI] [OOI] lo,32 IO,52 4,8 50 VW? 1926 (101) (102) [I I i] [olo] 12,72 IO,52 -14,9 50 vu1 1927 CuFeS, Cu,SbS,,,S, Tetraedrit (111) (III) [I io] [l io] 3,91 3965 -6,6 50 Vul; 30 Spa:

02 Wal 1928 (001) (100) [loo] [OOI] IO,50 IO,34 -1.5 50 Vul: 30 Spa 1929 (100) (100) [OOI] [OOI] lo,32 IO,34 50 vuz 1930 CuFeS, Cu,Fe,S,, VaUeriit (100) (100) [OIO] [OIO] IO,50 9,Sl -;; 50 vu1 1931 CuFeS, a-ZnS. Zinkblende (Sphalerit) (100) (100) [OOI] [OOI] 5,15 5,42 5:2 54 Ram: 50 Vul;

30 Spa; 29 GYU; 03 Mue

1932 (001) (100) [loo] [OOI] 5,24 5,42 394 50 Vd; 30 Spa 1933 (111) (111) [lio] [lio] 7,42 7,66 332 50 Vul; 30 Spa;

29 GYU 1934 (110) (III) [lio] [iio] 7,42 7,66 30 Spa 1935 CuFe,S,, Cubanit Fe,,!?, Magnetkies (Pyrrhotin) (001) (0001) [loo] [IO.01 6,43 6,S6 z*: 50 vuz 1936 (loo) (lioo) [ool] [oo.l] 6319 5,6S -s:2 50 vuz 1937 (001) (0001) [OIO] [12.0] 11.12 II,57 6.7 29 GYU 193s Fe ASS, Arsenopyrit PbS, Galenit (Bleiglanz) (001) (001) [loo] [I IO] 12,86 12,60 -2.0 50 Vul; 30 Spa;

03 Mue* 1939 (001) (001) [olo] [I io] 9,53 5,40 -11,9 50 Vul; 30 Spa;

03 Mue 1940 FeAsS Fe&,, Pyrit (001) (100) [loo] [Oll] 6,42 7366 1933 30 Spa: 02 Wal 1941 FeAsS Fe,-,S, Pyrrhotin (Magnetkies) (001) (IOiO) [loo] [Ol .O] 6,43 6,SS 7,o 30 Spa; 03 Mue 1942 FeAsS CoAs,, Safflorit (010) (010) [loo] [loo] 6,43 6,26 -2,6 50 vu2 1943 (010) (010) [OOI] [OOI] 5,66 5s7 3,7 50 vu2

T T Periods [A] Sub-

strate De-

posit

Phases Planes Ref.

Directions Misfit

% sub-

strate Sub- De- strate posit Substrate Deposit,

No.

[lm roo11 roll1 [OO. 11 [OO * l] [1001

w101 [0011 PO11 [I111 iwl [I IO]

ww WOI [10.0] [Ol .O] [1001 [1001

[OIOI [IO11 r1001 [IO01 [1W [1001 lI1001 [1001 [1001 [1001 [I 001 [IO01

II,44 II,22 -1,9 3,76 3,84 2,1 4,03 4,21 4,5 9,40 9,45 0,5 6,65 6,30 -5,3

11936 lo,60 -6,7

11936 lo,60 -6,7 5,68 5,42 -4,6

6,32 5,94 -6,o

7,13 8971 22,2

5,73 5,72 -0.2

7,43 7,12 -4,2

50 vu1 50 vu1 50 vu1 50 vu1 50 vu1 50 Vul; 30 Spa; 28 Roy; 21 Gro; 03 Mue; 02 Wal 30 @a; 02 Wal 58 Min; 50 Vu1

50 vu1

50 vu1

50 vu1

50 vu1

6,23 6,23 0

IO,04 II,12 IO,8

7,35 7960 3,4 7,35 7,60 394 5,58 5,43 -2,7

5,92 5,94 0,3

50 vu1

50 vu1

50 vu1 50 vu1 50 vu1

50 vu1

5,77 5,58 -3,3 33 Bun 7,47 7,05 -5,6 33 Bun 5,73 5,92 3,3 08 Bar

5,73 5,98 4,4 08 Bar

5,73 6,29 9,8 08 Bar

5,73 5997 42 08 Bar

II,46 IO,68 -6,8 08 Bar

5,97 6,23 4,4 08Bar ’

5,97 6,24 485 08 Bar

5,97 6,29 5,4 08 Bar

5397 5,93 -0,7 08 Bar

8,22 8,36 1,7 08 Bar

De- posit

[i: :I (100) (1010) (1010)

(001)

[::A/

(100) (1 IO)

(100) (IW

(010)

(100)

[%;;

(001)

(001)

1944 1945 1946 1947 1948 1949

1950 1951

1952

1953

1954

1955

1956

1957

1958 1959 1960

1961

1962 1963 1964

1965 1966

1967 1968

1969

1970

1971

1972

1973

FeSb,S,, Berthierit Sb,S,, Antimonit

Pb,Sb,S,, Jamesonit PbS, Galenit (Bleiglanz) Co& Linneit NiS, Millerit

Co ASS, Cobaltin CuFeS,, Kupferkies (Chalko- mW

CoAsS NiS, Millerit Ni,S,, Heazlewoodit Ni,S, (Fe,Ni),S,. Pentlandit

(Fe,Ni),S,, (Fe, NW, (Fe, Ni),S,

FeS,, Pyrit PbS, Galenit (Bleiglanz) (Fe,Ni),S,, Pentlandit ,%Ni,Pb,S,, Shandit CuFeS,, Chalkopyrit (Kupfer-

kies) CuFe,S,, Chalkopyrrhotin CuFe,S,, Cubanit Cu,Fe,S,, Valleriit

@-Ni,Pb,S,, Shandit a-ZnS, Zinkblende (Sphalerit) NiSbS. Ullmannit PbS, Galenit (Bleiglanz)

[:g (IOTO) (1011) (0001)

(IfI)

(111)

(100)

(111) (100) (100)

(001)

[loo] PW PO11 Pm [I101 ww

WOI [OW [OO * I] [OO. I] [IO.01 [I IO]

[I 121 PO11 [I IO] L-0111 [OW [1001

2.5.2 Sulfate - Sulfates

K,SO,, Arcanit KClO,, C$, -P2,/m

&SO, K,CrO,, Tarapacait

&SO, (NH,) &SO,, Mascagnit

K,SO, Rb CrO 2 4, D$-Pnam

K,SO, Rb SO 2 41 Dig-Pnma

J&SO, Tl SO 2 4, Dit-Pnma Rb,SO,, Dii--Pnma Cs CrO 2 41 Dig-Pnam Rb,S04 Cs SO 2 4, D,1;-Pnma Rb,SO, Rb,CrO,, D:i-Pnam Rb,S04 K,CrO,, Tarapacait Cs,SO,, D:i - Pnma Cs CrO,, 2 Dl,f;--Pnam

IE; (001) (001) (00’) @Of) (001) (001) (001) (001) (001) (001)

~z; (001) (001) (001) (001) (001) (001) (001) (001) (001) (001)

[1001 wo11 r1001 [I 001 [IO01 r1001 iI [I 001 iI [IO01 iI1 001 [fool

Phasen Ebenen Richtungen Perioden [A] Ab- Nr.

Wi& Gast Wirt Gast Wi* weichung Lit.

Gast Wirt Gast %

1974 Cs,SO,, D!P, - Pnma (NH&Sod, Mascagnit (001) (001) [loo] [loo] s,22 7978 -54 08 Bar

1975 cs,so,, - Rb,CrO D!P,-Pnam (001) (001) [loo] [loo] s,22 7,9s --2,9 08 Bar

1976 cs,so, ’ Rb,S0,,4’D:i-Pnma (001) (001) [loo] [loo] s,22 7m -50 08 Bar

1977 cs,so, K,CrO,, Tarapacait (001) (001) [loo] [loo] s,22 7961 -77,4 08 Bar

1978 (NH,),SO,, Mascagnit K,SO,, Arcanit (001) (001) [loo] [loo] 5998 5.77 -3,s 08 Bar

1979 (NH,),SO, Tl,SO,, D?1”, - Pbnm (001) (001) [loo] [loo] 5.98 5,S6 -2,0 08 Bar

1980 WU,SO4 K,Cr04, Tarapacait (001) (001) [loo] [loo] 5,98 5,93 -0,s 08 Bar

19Sl W34hSO4 Cs,SO,, DZt - Pnma (001) (001) [loo] [I 001 5,98 6,24 4,3 08 Bar

1982 SrSO,, Coelestin KC10 D1{-Pbnm 4, _ (001) (010) [loo] [loo] 8838 s,s5 5,6 08 Bar

19S3 (001) (100) [OIO] [OIOI 5,37 5,66 5,4 OS Bar 1954 SrSO, KMnO D!{-Pnma (001) (001) [loo] [loo] s,3s 9.10 8.6 08 Bar

1985 BaSO,, Baryt (Schwerspat) HgJ,, to&nit (210) (010) [OOI] [OOI] 7,f4 7932 2,s 54 Mon 4 1956 (210) (010) [izo] [I 001 14.03 14,Ol -0.1 54 Mon 4

l9S7 BaSO, KBF,. Avogadrit (001) (001) r1001 ;;y;; 8.87 s,10 -s.7 36 Roy 19ss BaSO, KClO,, D!i - Pbnm (001) (100) [iOO] s.s7 s,s4 -o,3 37 Sei I ; 36 Sei;

08 Bar

19s9 (001) (010) [loo] [loo] 8987 7,24 -IS,4 08 Bar

1990 (210) (001) [OOI] [IlO] IO.71 11,42 6.6 37Sei I

‘1991 BaSO, Fe&, Markasit (001) (100) [loo] [OIO] s,s5 s,ss 0*3 52 See

1992 (001) (100) [OIO] PO11 5,44 5,41 -0,6 52 See

1993 BaSO, Fe&, Pyrit (001) (001) [210] [I201 15.26 IS,18 -0,4 52 See 1994 (001) (001) [OIO] [0101 5,45 5942 -0,6 52 See

1995 (001) (001) [4301 [3401 39,60 40,65 Z7 52 See

1996 (001) (001) [OIO] [OIO] 5945 5,42 -0,6 52 See

1997 BaSO, KFSO D.?P,-Pnma SI - (001) (001) [010] [OIO] 5.44 5,86 7.7 36 Sei

199s BaSO, SrSO,, Coelestin (001) (001) [OlO] [OIO] 5,45 5,37 -1,s 50 vu1

1999 BaSO, PbSO,, Anglesit (001) (001) [loo] [loo] s,s7 8.47 -4.5 50 vu1

2000 BaSO, KMnO,, D!{-Pnma (001) (001) [loo] [loo] s,s7 9,10 Z6 54 Ram; 08 Bar

2001 BaSO, (NH,)MnO,, D$j-Pbnm (001) (001) [loo] [loo] St87 9,12 2,s OS Bar

2002 BaSO, BaCa(CO,),, Barytocalcit (001) (001) [OIO] [OIO] 5,45 5,23 -4,0 03 Mue; 30 Spa; 02 WaZ

2003 Tl SO D!: - Pnma K,SO,, Arcanit (001) (001) [loo] [loo] 5,S6 5,73 -2,2 08 Bar

2004 Tl;SO; - Cs,SO,, D!P, - Pnma (001) (001) [loo] [loo] 5,86 6,24 6,s OS Bar

200.5 TI,S04 (NH,),SO;, Mascagnit (001) (001) [iOO] [IdO] 5,S6 5.98 2,o 08 Bar

2006 TI$O, Rb,SO,, D$,-Pnma (001) (001) [loo] [loo] 5,86 5.97 199 08 Bar

2007 Tl,SO, K,CrO,, Tarapacait (001) (001) [loo] [loo] 5,S6 5,92 I,0 08 Bar



% Ref.


2008 CaSO, l 2H,O, Gips K J. Oz--Fm3m (010) (110) [OOI] [211] 629 613 -2,5 08 Bar 2009 CaSO,.2H,O CaSO,, Anhydrit (010) (010) [OOI] [loo] 629 6,22 -I,1 08 Bar; 03 Mue;

1836 Fra 2010 CaSO, - 2H,O CaCO,, Aragonit (010) (110) [loo] [OOI] 5,68 5,73 0,9 67 Kle 2; 66 Wil;

64 Kle I; 62 Wil; 03 Mue

2011 .(OlO) (010) [OOI], [OOI] 629 5,73 --8,9 50 vu1 2012 , (010) (100) [OOI] [OOI] 629 5,73 --8,9 50 v2.d 2013 CaSO, - 2H,O CaCO,, Vaterit ~ (010) (110) [loo] [OOI] 8,52 8,4% -0,5 62 Wil

2014 CaS04,. 2H,O SrSO,, Coelestin (fO1) (001) WOI [1001 15,18 16,76 IO,4 50 vu1

2015 CaSO,. 2H,O NaNO,, Na-Salpeter (Nitro- (010) (1011) [loo] [Ol.O] 5,68 5,06 -IO,9 08 Bar natrit)

2016 KAI(SO,), l 12 H,O, Pb(NO,),, TZ-Pa3, (001) (001) [loo] [IlO] 12,16 II,12 --8,6 08 Bar; 1836 Fra K-Alaun Nitroplumbit

2017 NH,AI(SO,), -12 H,O, KAl(SO,),.12H,O, K-Alaun (001) (001) [loo] [loo] 12,24 12,16 -0,7 08 Bar NH,-Alaun

2018 Ca,AI,[(OH), l SO;],-24H,O, ~h~~~a~t.S0,.Si0,1-~3H,0, (OITO) (OITO) [lO.O] [r6.0] 22,28 21,SO -2,2 63 Car Ettringit

2019 (0110) (OliO) [00-l] [00-f] 21,29 20,58 -3,3 63 Car 2020 Fei+(SO,), l 9H,O, Fei+(SO,), + 9H.,@, (0001) (0001) [IO-O] [lO.O] IO,87 IO,92 0,5 50 Vul; 36 Sei

Coquimbit Paracoquimbit 2021 Cu,[(OH), l SO,], Brochantit Cu(OH),, D,1;--Cmcm (010) (010) ww r1001 6,02 5,90 -2,0 64 OS& 2022 K&O,, DC-P321 K&SO,, Arcanit (0001) (001) [IO-O] [OIO] 9,82 IO,01 I,9 33 Bun 2023 NaJWMW&~ NaK,Cl(S,O,), C&-P4/n (001) (001) [loo] [II01 8>56 8,57 O,l 51 Sta

D,G,--P4/mnc

2.6 Selen- und Tellurverbindungen - Compounds of selenium and tellurium

2.6.1 Selenide - Selenides

2024 C&Se, Berzelianit CuSe,.Klockmannit (111) (0001) [IIO] [IO-O] 4,06 ’ 3,94 -3,o 50 vu1

2025 Cu,Se,, Umangit CuSe, Klockmannit (001) (0001) [loo] [lO.O] 4,28 3,94 -7,9 50 vu1

2026 CdSe, Tg--Fj3m b-CdSe, Cadmoselit (111) (0001) [IIO] [Il.01 4,27 4,30 O,7 63 Kal

2027 SnSe, 0; - Fm3m SnSe,, D”, -P&21 (001) (0001) [IlO] [lI.O] 6,12 6,60 7,g 70 Alb

2028 Hg(S,Se), Onofrit HgS, Cinnabarit (111) (0001) [lIO] [IO.01 8,35 8,30 -0,6 50 vu1

Nr. Wirt

Phasen

Gast

2029 2030

2031

2033 2034

203 5 2036

2037 2038

2039 2040

CdTe, T,?,--Fq3rn CdTe ZnTe, T;?- Fq3rn ZnTe ZnTe ZnTe ZnTe Au(Pb,Sb,Fe),(Te,S),,,

Nagyagit Au(Pb, 3.x FeMTe, S),, Au(Pb.Sb,Fe),(Te,S),, Bi,Te,S, Tetradymit Bi,Te,S

2041 e-Fe,N, D: - P&2 2042 e-Fe,N, Di - P6s22

2043 f-Fe,N, Oh-Pm3m

2044 2045 2046 2047 2048 2049

NaNO,, Na-Salpeter (Nitro- natrit)

NaNO,

NaNO,

2050 2051 2052 2053


Wirt 1 Gast Wirt 1 Gast Wirt 1 Gast I I weichung Lit.

%

HgTe, Coloradoit (Hg,Cd)Te, Ti--Fqjrn (Zn,Bi)Te, Ta-F43m (Zn,Ga)Te, Ta-F43m (Zn, In)Te, Ti-Fqsrn (Zn,Pb)Te, Td-Fqjrn (Zn,Sn)Te, Ti-Fqsrn PbTe, Altait

Ag,AuTe,, Petzit AuAgTe,, Sylvanit Bi,S,, Bismuthinit Bi,Te,, Dzd - Rjm

2.6.2 Telluride - Tellurides

(111) (001) (110) (110) (110) (110) (110) (010)

(010) (010) (0001)

(0001)

(Ill) (001) (110) (110) (110) (110) (110) (001)

(001) (010) (001) (0001)

11 TOI [1001 m11 WI PO~I t3011 wo11 [1001

roo11 WI [01-O]

[iO.O]

iI1 fO1 [I 001 lm11 l30~1 row roo11 PO11 [1001

[I 001 [pool [I 001 [iO.O]

4,59 4,57 -0.4 66. Mar 6.48 6.45 -0.5 69 Tuf 6.10 6,11 02 70 Wid 6,io 6.09 -0,2 70 Wid

6,10 6,12 0,3 70 Wid 6.10 6,12 0,3 70 Wid

6,10 6.11 02 70 Wid 12,50 12,90 32 50 vu1

IO,10 IO,38 23 50 vu1

IS,15 24,62 -3,s 50 vu1

II,27 11,15 -I,1 50 vu1

4,32 4.39 1,6 51 vu1

2.7 Stickstoffverbindungen - Nitrogen compounds

2.7.1 Nitride - Nitides

Fe,O,, Magnetit e-Fe,N, Dj --P&2 e-Fe,N, Di -P6,22

l~pz!;~~Ej

2.7.2 Nitrate - Nitrates

CsBr, Oiri--Prn3rn

CsCl, OA-Pm3m

NaCI, Halit

[I101 [1101 [if01 II~~Ol III101 [fool

PI 01 WOI iI [I101

[I TO] [iO.O] [21*0]

Z77 2,69 2.68

2.97 I 72 2.77 3,o 2869 0,4

[II01 16.32 IS,41 -5.6 [IO01 S,16 7,23 -II,4 [I101 16,32 14379 -9,4 [1001 8,16 6.94 - ISJO [I101 4905 3.99 -I,5 [IO01 6,49 5.64 -13.1

[fool 6859 564 -14,4 [I 101 4,29 3,99 -7,0 PI01 6,49 659 1,s [I io] 4,05 3,99 -1,s

68 Neu 1,2 68 Neu 1,2 68 Neu 1.2

57Fer I: 52Sch I 52.W I 57Fer I: 52Sch I 52.W~ 1 52 Sch I; 37 Hei 59 Hoc: 57 Fer I: 49 Mer: 37 Hei 59 Hoc 59 Hoc 59 Hoc 49 Mer

I-40.

2054

2055

2056 2057 2058

2059

2060 2061 2062 2063‘ 2064 2065 2066 2067 2068 2069 2070 2071

2072 2073 2074 2075 2076 2077 2078 2079 2080 2081 2082 2083 2084

Substrate Deposit


NaNO, K J, Oi-Fm3m

NaNO, LiBr, Og-Fm3m NaNO, LiCl, OE-Fm3m

NaNO, NaNO, NaNO,

NaNO,

NaNO,

~ NaNO, NaF, Villiaumit ~ NaNO, As,O,, Arsenolith

KNO,, K-Salpeter (Nitro- kalit)

(Na,Ag)NO,, D!&r---Rjc Cu,[(OH), l NO,], Ger-

hardtit

KBr, Oi--Fm3m

LiF, Oi-Fm3m NaBr, Oz-Fm3m Na J, Oz--Fm3m

Rb J, O{--Fm3m

KCI, Sylvin

K,SO,, Arcanit

(Na, K)NO,, D,6,-Rjc Cu(OH),, D&Cmcm

>UD-

strate ve-

posit

(100)

3UD-

strate

._r Phases Planes Directions Periods [A] F.. ,Y-. m. IT-. c.1 I n Misfit n~#.

[OlOl

[0101

[IIO] CllOl [1101

I31 01

[01-O] [0101 [0101 iI [I101 [I IO] P101 WOI [I101 iI [I101 [I101

;::z; [I101 [I101 [I101 [I IO] [I IO] [I101 [I IO]

[I 001 [I 001 [1W PO1

p”Zit

r1101

[0101

[I IO] [I101 [I101

[Of01

[I101 [0101 DIOI [I101 [I TO] [IZI]

WOI [0101 [I IO] [I101 [I101 [I101

WOI [I IO] [II01 [I IO] [I 1 Z] [I TO] [IIZ] [I IO]

[I101 [1001 [IO01 II1001 II1001

12,98 14,Ol

6,49 6.60

7,9

10,lj 16,32 16,32

9,34 15,oo 15,oo

I,7

-7,8 -8,l -8,1

6,49 7,07 8>9

6849 5,oo -23,o 6,49 5,50 -IS,3 6,49 5,15 - 20,6 8,16 7,28 -10,s 8,16 7,28 -lo,8

IO,13 9,87 -2,6 6,49 5,97 -8,o 6,49 6,48 -0,2 8,16 9,17 12,4

16,32 15959 -4,5 16,32 15,59 -4,5 8,16 8990 9,l

6,49 6129 -3,l 8,16 8-90 991

12,24 13,10 790 8,16 7984 -3,9 8,16 8,32 XJ

10913 It,76 16,1 13,52 12,48 -7,7 8,16 7,84 -3,9

IO,13 II,76 16,1 5,43 5977 6,3 5,43 5,77 6,3 6,47 6,52 68 6,07 5,90 -2,8

ue- posit %

ne1.

54 Roy; 52 Sch I; 49 Mer; 37 Hei 57Fer I; 52Sch I; 49 Mer; 37 Hei 49 Mer 52 Sch I: 37 Hei 52 Sch I; 49 Mer; 30 .!!+a 57 Fer I; 49 Mer; 37 Hei 37 Sei 49 Mer; 37 Hei 49 Mer: 37 Hei 37 Hei 49 Mer 57 Fer I; 52 Sch f 49 Mer; 37 Hei 49 Mer; 37 Hei 49 Mer 57 Fer I; 52 Sch f 52 Sch f 57 Fer I; 52 Sch I: 37 Hei 49 Mer 49 Mer: 37 Hei 57 Fer I: 52 Sch I 54 Mon. 4 54 Mon 4 54 Mon. 4 54 MO, 4 54 Mon 4 54 Mon 4 33 Bun 33 Bun 08 Bar 64 Osw

Aa% so :I P&J,\: OS AV% 80 :/ naN OS

PA OS AV% 80

L’E- L’E-

, & S’P- P’L O’L- L’L- L’O-

0 Z’S E’S- z‘6r z'6r E'O-

P'Z

;:; P'L- S'9- L'Z-

S'9L

E'O- C'C

9'r P'E S'P L'P Z'P

t-L‘9 BL’9

PL’L tL’9 PL’9 99’02 CO‘S S9’P b9‘OL EO’S 06’9 SS’LL SS’LL SS’I c LS’9

E9’6 06‘9 S9’S SE’9 sr’sr 68’9

9ror

Ez'6 LS'L

99'S 00'S 99'S 00‘8 LO'P

OO’L OO’L

9O’L 9O’L 9O’L be'0 L SO'S OL% S9'0 L CO'S SE'9 gb’z L L6'6 L6'6 68'9

oi7‘6 68'9 22% 68‘9 PZ'92 PO'L

LS'8

gz’6 EP'L

LS'S PL'L OP'S P9'L SST

;-:i; (LOO) (1000)

p; (OLO) (OlOi) (OLO) (rooo) (oto) (oror)

[o:rzl (LOO) (rooo) [O&O1 (200) (002)

[oorl (ozz) (OLO)

[OLOI (LOO) kor) [ootl (LOO) (LOO)

sqeqdsoqd - w¶dso¶d 2'8'2

'O"HP'a('Od)(uW['ad)8uZ pll+~A ‘(393 8 l i [‘Od]Ead

qadoH ‘O”HP l “[‘O,-j]‘UZ

WI=uSI ‘O'HZ*'OdHYI

7!96rOU -0ti '['('Od)'I31*9d

[‘(‘Od) *HO]‘“3

t‘irz ZLlZ

LLLZ OllZ 6orz sorz LOEZ 9OLZ sorz POLZ EOlZ zotz iOLZ OOLZ 6602

S60z L6oz 960Z 560~ P60z E60z

z60z

~60~ 060~

6soz ssoz LSOZ 9SOZ 5802

1

‘“N

Directions Periods [A] Planes Misfit

% Ref.

Phases

Substrate Deposit

Ca[UO,.PO,],. 10H,O, Ca[U02~POJ,~10H,0, Autunit Chalkolith

Ca[UO,*P0,],*2***6H,O, BaC1,*2H,O, C,5h-P2,c Meta-Autunit

Ba(UO,),CPO,I,.lOH,O, BaC1,.2H,O, Cih-P2,c Uranocircit

(H,O),C(UO,),*AsO,l,.GH,O CNJO,) ~(As0,)1,.10H,Q Trijgerit Zeunerit

No. Sub- strate

Sub- strate

De- posit

Sub- strate

De- posit

[IO01 iI 7,oo 7,06 a9 04 Gau w101 [fool 7,OO 7,06 029 04 Gau r1001 [lOOI 699 674 -3,6 50 Neu I; 08 Bar [OIOI [1001 699 674 -3,6 50 Neu I; 08 Bar [1001 [1001 7,Ol 674 -3,9 50 Neu I; 08 Bar [OIOI [1001 7,Ol 674 -3,9 50 Neu I; 08 Bar [IO01 [IO01 7,16 7,18 O,3 04 Gau: 99 Go1

2114 2115 2116 2117 2118 2119 2120

2121 2122 2123 2124 2125 2126

2127

2128

2129

2130

2131

2132

2133 2134 2135 2136

2137 2138

2’39

2.9 Arsen- und Antimonverbindungen - Compounds of arsenic and antimony

GaAs, Ti--F43m GaAs

2.9.1 Arsenide - Arsenides

Ge, Oz-Fd3m /?-CdS, Greenockit

GaAs (Al, Ga)As, Ti--F73m GaAs GaP, Ti--F;Fsrn GaAs (Al, Ga)As, Ti-F;Fsrn GaAs GaAs (dotiert) , T%- Fq3rn GaAs Ga(As,P), Ti--Fqsrn

GaAs Ga(As, Sb), Tg--F43m GaAs InAs, Ti-F$jrn ZnSiAs,, Dii--I;F2d Ge, OL--Fd3m

FeAs,, Lollingit FeAsS, Arsenopyrit CoAs,, Safflorit FeAs,, Lollingit NiAs,+ Chloanthit (Fe, Co, Ni)S,, Bravoit NiAs,-, NiAsS, Gersdorffit NiAs, Nickelin N&As,, Maucherit

(001)

;A;:;

(“0) (“0) (“1)

(“1)

(00’)

(“1)

(‘1’)

(“1)

(“0)

(114 (‘0’) (00’)

(00’)

(“0)

(00’)

(1000)

(00’) (0001)

[:;g

13

(“1)

(00’)

(“1)

(“1)

(“1)

(“0)

(“1) (201) (0’0)

(00’)

(00’)

(00’)

(‘00)

[I101 [I TO] [I101 [If01 [I IO] [Oil]

[I IO]

[I101 [I TO] [I TO]

[I IO] iI [I TO] [OlOl [1001 II1001 row [f101 [OO.l]

r1101 [lO.O] [01-O] [OO.l] [Ol .O] [OTI]

[I iO] iI [I TO] [I TO]

[I TO]

iI [I TO] [0101 roo11 II1001 II1101 [1001 WI

3,98 4,00 0,s 3,98 4,14 4,O 3,98 4,14 490 7,99 6,73 -15x8 3,98 4,14 4,o 7,96 7,98 O,3

3,98 3,85 -3,3

7,96 7,98 O,3

3,99 3899 0

7,96 7,44 -6,s

7,96 7,98 O,3

5,65 6,06 7,3

7194 8,00 03 5,57 5,66 196 5872 5,66 -I,0

3,13 2,86 -8,6

8,28 7,84 -5,3

5,68 5,7l 0,s 20,44 2l,87 710

68 Lig 2 70 Cur; 66 Wei 70Cur 67 Mag 2 70 cur 69Alf

69 Man; 69 Cho 1

69 Alf

67 Alf; 67 Mag I

70 Phi: 69 Man: 69 BUY I 69 Man 68 Vla

69 S$r 69 S@ 50 vu1

54 Ram 50 vu1

50 vu1

50 vu1

2.9.2 Antitionide - Antimonides

2140 I.. Ag,Sb, Antimonsilber 2141 Ag,Sb, Dyskrasit I

Ag, kubisch flachenzentriert Ag, kubisch flachenzentriert

Phasen Nr.


Wirt Gast Wirt Gast weichung

Wirt Lit.

Gast Wirt Gast %

2142 I&b, Ti--F43rn InSb, T,:-F43m (@Ol) (001) [loo] [loo] 6,48 6,48 0 66 Hoi 2143 InSb,, T,B, - Pa3 CdS, Hawleyit (ill) (iii) [iio] [ii01 4,57 4,12 -9,8 68 Ho1 3 2144 AsSb, Stibarsen As, D&-RJm (001) (001) [loo] [loo] 4,34 491.5 -4,4 50 VT.41 2145 AsSb Sb, D&,-Rjm (001) (001) [loo] [loo] 4,34 4.51 3,9 54 Ram; 50 Vut

2.10 Kohlenstoffverbindungen - Carbon compounds

2.10.1 Carbide - Carbides

2146 Sic, Moissanit a-Ti, hexagonal dichteste (0001) (0001) [iO.O] [lO.O] 3,08 2,95 -4,2 55 Oke Kugelpackung

2147 Sic TiO, Ok-Fm3m (0001) (ill) [lo-o] [roil 3,08 3.00 -2.6 55 Oke 2148 Tic, 0; - Fm3m TiO,, Rutil (100) (110) [OOI] [OOIJ 8,66 8,88 295 62 Ash 2 2149 (100) (110) [OIO] [OOI] 8,66 8,88 2,s 62 Ash I; 62 Ash 2 21 so Fe& Cementit*) u-Fe, Ferrit (001) (zii) [IO01 [oi i] 4.53 4,06 -IO,4 62 Pit 7 2151 (001) (2ii) P101 [IllI 5.08 4*97 -2,2 62Pit 1 2i 52 (loo) (oil) [ooi] [Zli] 6.75 7,03 4,1 62 Pit 2 2153 (loo) (oil) [oio] [Ill] 5,08 4997 -2,2 62 Pit 2 2154 Fe&, Cohenit FeS, Troilit (100) (010) [OOI] [loo] 6,75 6,86 I,6 50 vu1 2155 (100) (010) [OIO] [OOI] 5,08 5,68 iI,8 50 vu1

2.10.2 Carbonate - Carbonates

2156 Cal&( CO,) *, Dolomit NaNO,, Na-Salpeter (Nitro- (loll) (loii) [01-o] [01-o] 9,63 10,12 591 30 Spa; 08 Bar; natrit) 03 Mue

2157 c~EdcOs~s (Mg,Fe,AMIOH)s~ (Si Al), (loii) (001) [Oi .O] [loo] 9,63 10,40 8,O 03 Mue 2158 . O,,], Chlorit (0001) (001) [10-O] [loo] 4,81 5,20 891 50 vu1 2159 c~mwa (Ca,Na),(Mg,Al,Fe),[(OH,F), (loi2) (010) [II -01 [OOI] 4,81 5.33 10.8 50 vu2

. (Si, Al),OJ, Hornblende (Amphibol)

2160 CaWW.& Mg,[(OH), .Si,Oi,,], Nema- (lo’il) (001) [01-O] [Ol O] 9363 9,20 -4,5 50 Vul: 03 Mue 2161 phyllit (1120) (001) [00.1-j [loo] 16,11 15990 -I,3 50 Vul; 03 Mue 2162 CaCO,, Aragonit KNOI, K-Salpeter (Nitrokalit) (001) (001) [loo] [loo] St72 6145 12,8 08 Bar; 03 Mue 2163 CaCO, KNOJII), Di{-Pmcn (010) (010) [loo] [loo] 4.95 5,42 9,s 59 Kle 2 2164 CaCO, (Zn,Cu),[(OH),.CO&, Auri- (010) (010) [001-J [001-J 4,94 525 683 62 Mei

chalcit

*) meteorisch: Cohenit.

Phases Planes Directions Periods [A] No.

I

Sub- De- Sub- De- Sub- Misfit Substrate Deposit

De- %


2165 CaCO,, Aragonit CaCO, Calcit (001) (5052) [IOO] [12-O] 5,72 4,32 -24,5 50 Vul; 30 Spa 2166 (001) (0001) [loo] [IO-O] 5,72 4,98 --l&9 64 Das 2167 (001) (0001) [IIO] [lO.O] 439 4,98 I,8 G4 Das 2168 (010) (IOIO) [OOI] [OO.l] 4,94 4,27 -13,6 64 Das 2169 (001) (0001) [IIO] [Ol.O] 489 498 13 64 Das; 64 Kle 2 2170 CaCO, PbCO,, Cerussit (010) (010) [OOll PW 4994 5,17 4,7 50 vu1 2171 CaCO,, Calcit Ag, kubisch flachenzentriert (1011) (111) [fl.I] [IIO] 6,41 5376 -IO,1 50 Neu 1; 50 Thi;

49 Mer; 39 Ess; 37 Rue

2172 (1011) (100) [Il.I] [IIO] 6,41 5,76 -IO,1 5ONeu I;39 Ess: 37 Rzte

2173 (1011) (110) y;,” [~I01 6,41 5.76 -IO,1 50 Thi; 37 Rue 2174 CaCO, Al, kubisch flachenzentriert (100) (111) CllOl 6,42 5,73 -IO,7 51 Wil; 49 Rho 2 2175 (111) (111) [Ol 11 [Zl i] 8,08 7950 -7,2 49 Rho 2 2176 CaCO, Au, kubisch flachenzentriert *(lOTI) (111) [Tl.l] [IIO] 3,20 2,88 -IO,0 50 Neu 1; 49 Mer;

37 Rue 2177 y;’ (110) y;1 r1 IO1 3,20 2,88 -IO,0 50 Neu I; 37Rue 2178 (1fO) [I IO] 3,20 2,88 -IO,0 37 Rue 2179 (001) (100) PO1 [0111 3,20 2,88 -IO,0 37 Rue 2180 y;’ (100) y;1 PI 11 3,20 2,88 -IO,0 37 Rue 2181 (111) [I TO] 3,20 2,88 -IO,0 37 Rue 2182 CaCO, Pd, kubisch flachenzentriert (1011) (111) [Of .O] [I TO] 4,98 5,50 IO,4 50 Neu I; 37Rue 2183 (1011) (110) [01 .O] [I IO] 4,98 5,50 IO,4 50 Neu I; 37Rue 2184 (1011) (100) [Ol . O] [01 I] 498 5,50 10,4 37.Rue 2185 (100) (111) [OOI] [I TO] 6,42 5,50 -14,3 49 Mer 2186 CaCO, CsBr, Oi-- Pm3m (001) (100) [ITO] [IlO] 4,98 5,12 2,8 57Fer I; 52Sch 1 2187 (001) (110) [ITO] [loo] 4,98 4,30 --13,7 52 Sch I 2188 (001) (110) [I IO] [IIO] 4,98 5,12 2,8 51 Sch 4 2189 CaCO, CsCI, Oi--Pm3m

g:; (100) [I IO] [I~01 4,98 492 -12 57Fer I; 52.&h I

2190 (110) [I IO] r1001 498 4,lO --17,7 52 Sch I 2191 (001) (110) [I IO] [I101 4,98 5,80 16,5 51 Sch 4 2192 CaCO, CsF, O&Fm3m (100) (111) [IIO] [ITO] 8,08 8,52 5,4 57 Fer I; 52 Sch I

2193 CaCO, CaF,, Fluorit (IOTI) (110) [TT-I] [II21 6,41 6,68 42 62 Glo

2194 CaCO, NaC1, Halit (001) (001) [IIO] [IIO] 4,04 3,99 -I,2 52 Sch I; 51 Sch 4; 50 Roy I; 37Roy

2195 (001) (001) [loo] [loo] 6,42 5,64 -12,l 57 Fer I; 50 Roy I; 49 Mer

2196 6,42 5,64 -12,l 50 Roy I 2197 CaCO, KBr, Oi-Fm3m 4898 4867 -6,2 54 Roy; 51 Sch I;

51 Sch 4

Nr.

2198

2199 2200 2201

2202

2203 2204

2205 2206 2207

2208 2209

2213 2214

2215 2216

2217 221s 2219

2220

2221 2222 2223 2224 2225 2226

Wirt

Phasen Ebenen

Gast Wirt

CaCO,, Calcit (Fortsetzung)

KBr, OP,- Fm3m

CaCO, KF, Carobbiit CaCO, KJ, 0,5,-Fm3m

CaCO, LiF, Oi-Fm3m CaCO, NaBr, Oi-Fm3m

CaCO, NaJ, Oi-Fm3m

CaCO, PbBr,, kubisch CaCO, RbBr, Oi-Fm3m

CaCO, RbCI, Ot-Fm3m

CaCO, RbJ, Ot-Fm3m

CaCO, KCl, Sylvin

CaCO,

CaCO,

NaF, Villiaumit

Rs20,, Arsenolith

Richtungen

Wirt Gast I Wirt Gast

Ab- weichung

%

PJ11 row 6.42 6.60 2,8

ro101 Pal [i io]

::A; iI

[i To]

3,21 3,3o 0 $08 7,56 -6,4 439s 4,55 -2.0

[I io] 4898 4,88 -2,0

[i To] [I io] 4898 4,ss -2,0

WI PO11 6,42 7,06 10.0

i3~01 row 6,42 7,06 IO,0 [I io] [I 211 9.96 9,91 -0,5 WI PO11 6,42 5,97 - 7,o

ro101 6.42 5397 -7.0 PO11 6,42 6,47 0,s

ro101 [01-O] WI

6,42 6847 0,s 9896 9948 -4,a 6,42 6,57 7,o

ro101 WI 6,42 6.57 7,o roo11 row 6,42 6,55 2,o

PI01 [I101

6,42 6.55 zo 9996 10.75 7,9

[I io] 9,96 to,75 7,9 w101 4,9s 3,67 -26,3 [II01 4,9s 4,46 -IO,4

PW PO11 6,42 6,29 -2,0

ro101 [II01 r.‘lOl [II *Ol [Ii.01 [li.o]

COO~I

;: 2:; [I To] [I ’ 21 [i io]

6,42 6.29 -2,0 6,06 6.55 S,f 6,06 6.55 51 s,os 7,st -3,3

1494 13952 -9,s 1494 IS,62 4.6

Lit.

57 Fer I; 50 Roy 1: 43Mer; 37 Roy 50 Roy 1; 37 Roy: 57 Fev f; 52 Sch 1 54 Roy: 52 Sch 1; 51 Sch 4 52 Sch 1; 51 Sch 4; 30Spa 37 Roy 57 Fer I: 49 Mer: 37 Roy 37 Roy 52 Sch I; 51 Sch 4 54 Roy: 49 Mer; 37Roy 37 Roy 54 Roy; 49 Mer: 37 Roy 37 Roy 50 Roy 3 54 Roy; 49 Mev; 37 Roy 37 Roy 54 Roy: 49 Mer; 37 Roy 37 Roy 52Sch 1; 51 Sch 4; 37 Roy 52Schf;5fSch4 57 Fer I; 49 Mer 64 Mer; 54 Roy: 52Sch 1; 51 Sch 4 57 Fer I; 49 Mer; 37 Roy 37 Roy 57Fer 1; 52ScJt f 52 Sch 1 68 Cad; 54 Mon 4 54 Mon 4 54 Mon 4

Phasen Ebenen Richtungen Perioden [A] Ab- weichung

% Wirt Nr.

2261 CaCO,, Calcit (Fortsetzung) PbCO,, Cerussit 2262 CaCO, CaMg(CO,),, Dolomit

2263 2264

2265

2266 2267 2265 2269 2270 2271 2272 2273 2274

2275

CaCO, CaCO,

CaCO,

CaCO,

FeC03, Siderit (Ca, NaMMg. Al, FeM(OH, Fh

- (Si, Al),O,J, Amphibol CaLiAI,[(OH),- AlBeSi,O,,,],

Bityit Mg,[(OH),~Si,OI,J, Chrysotil

CaCO, ’ BaCa(CO,),, Barytocalcit BaCa(CO,),

CaSn(BO,),. Nordenskiijldin BaSO,, Baryt (Schwerspat) NaNO,, Natronsalpeter (Nitronatrit)

2276 2277 BaCa(CO,), CaCO,, Calcit

227s 2279 BaCO,, Witherit BaSO,, Baryt (Schwerspat)

22so 22Sl 2252 2283 2254 2285 2256 2287 22ss 2289 2290 2291

ZnCO,, Smithsonit ZnO, Zinkit

ZnCO, CdCO,, Otavit (Ca,Pb)CO,, Tarnowitzit (Ca. Pb)CO,, Plumbocalcit MnCO,, Rhodochrosit LiNO,, D!&-Rjc FeCO,, Siderit a-Fe,O,, Haematit FeCO, LiNO,, D&--R$ CuCO,*Cu(OH),, Malachit 2CuC0, -Cu(OH),, Azurit

(Ce,La, Dy)[F*CO,I, Bastnlsit

CaCe,[F,- (CO,),], Parisit

(Ce, La, Dy) F,, Tysonit

2292 CaCe[F. (CO,),], Synchisit

Lit. Wirt Gast Wirt Gast Wirt Gast

(001) (001)

;%;

(001)

goo:; (001)

g:; (001) (001) (001) (001) (foil)

[Ol .O] [1001 4,98 6913 23,l [I 001 [~OOI 6.42 6,19 -3.6

[1001 [IO01 6.42 6.03 -6.1 [ii-o] [Of01 17.2s 4 7,90 336

[I io] [I 001 4,99 4,98 -0,2

[I io] [I io]

;: 2; [loi] [I Zl] PI01 t-1001 PI01 row

[IO01 4,9S 5933 7,O [I 001 4,98 5933 7,O [O~OI 8963 9,10 5,4 [IO01 I 7~6 IS,99 - 7,4 L-0101 9,96 9,lO -8.6 [I 001 17,26 15.99 -7,4 imo1 S,S6 9,lO 2,7 [IO01 6,36 6.00 --5,7

IPOI 5,23 545 4.2 [lO.l] 6.59 6,49 -1,s

39 Sei 54 Ram; 50 Vul; 3OSpa;O3Mue 50 vu1 02 Wal

50 vu1

54 Gay 57 won 57 won 57 Won 57 Won 57 won 57 Won 50 vu1 50 vu1 30 Spa; I I Kre

(0001) ImOl [lO*O] 523 5.06 -383 (0001) Plll [lO.l] 4,84 4,98 2,9

(01 i2) (402)

(loio) (loio) (ioio) (100)

1 E,” (100)

;E;

;::z; (0001)

row [lO.l] 6,59 6,42 -2,6 [1001 WOI 526 5945 3.6

[I~21 r1101 11121 PI 11 [I io] w11 Wfl w11 PO11 [I101 [1101 [iO.O]

[OO. 1-J [OO*lJ

[E;’ [lZ*O] LOI 11

:::i; WlOl [i io] [i io] [12-O]

5,60 5949 - 7,3 1 o,92 IO,38 -4.9

5960 5,19 -7,3 7,28 7890 8,s 9,85 8.64 -12,6

IO,89 10.53 -383 7950 7,40 -I,3

IO,66 IO.53 -I,2 6,42 5,s4 -9.0 7,66 7962 -0,s 7,66 7862 -0,5 7,16 7,12 -0,6

II Kre 30 Spa; I I Kre: 03 Mue; 02 Wal 50 vu1 50 Vul; 30 Spa; 03 Mue 48 Ros 39 Ros 39 Ros 50 vu1 50 vu1 If Kre 50 vu1 11 Kre 66 Kle 2 66 Kle 2 66 Kle 2 50 vu1

(0001) [lO.O] [lO.O] 7.18 7.11 -I,0 53 Don: 50 Vu1


Periods‘[A] Sub- De- Sub- De- Misfit


% Ref.


2293 Ca,Ce,[F,(CO,),], Rontgenit CaCe,[F, . (CO,),], Parisit CGed%W,M

(0001) (0001) [IO.01 [IO.01 2294

7,13 7,18 0,7 53 Don CaCe[F . (CO,) 2], Synchisit (0001) (0001) [lO*O] [iO.O]

2295 CaCe[F. (CO,),], Synchisit 7,13 7,11 -0,3 53 Don

(Ce,La,Dy)[FCO,], Bastnasit (0001) (0001) [IO-O] [IO.O] 2296 Pb,[C&CO,], Phosgenit

7,11 7916 or7 50 vu1 PbCO,, Cerussit (001) (100) [DO] [OIO] 9,12 8,48 -7,O 50 vu1

2.10.3 Cyanide - Cyanides

2297 KCN, T4- P2,3 KCI, Sylvin (001) (001) [loo] [loo] 6,51 6,24 -4,l 08 Bar 2298 KCN K J. O%-Fm3m (001) (001) [100] [loo] 6,51 7,06 8,4 08 Bar 2299 KCN NaCl, Halit (001) (001) [loo] [loo] 6,51 5,64 --13,4 08 Bar 2300 KCN NaJ, Oi-Fm3m (001) (001) [ZOO] [loo] 551 6,47 17,4 08 Bar 2301 KCN NH,J, O&Fm3m (001) (001) [loo] [loo] 6,51 7,26 II,5 08 Bar 2302 KCN RbCN, T4 - P2,3 (001) (001) [loo] [loo] 6,51 8,61 46 08 Bar 2303 KCN Rb J. O&Fm3m (001) (001) [loo] [loo] 6,51 7,34 12,7 08 Bar 2304 RbCN, T4 - P2,3 KCN, T4- P2,3 (001) (001) [loo] [loo] 6,83 6,56 -4,0 08 Bar 2305 RbCN KCl, Sylvin (001) (001) [loo] [loo] 6,83 629 -7,9 08 Bar 2306 RbCN NH,J, O&Fm3m (001) (001) [loo] [loo] 6,83 7,25 61 08 Bar 2307 RbCN NaCl, Halit (001) (001) [loo] [loo] 6,83 564 --17,4 08 Bar 2308 RbCN KBr, Oi-Fm3m (001)’ (001) [loo]’ [IOO] 6,83 6,60 -3,4 08 Bar 2309 RbCN KJ, O&Fm3m (001) (001) [loo] [loo] 6,83 7,07 3,s 08 Bar 2310 RbCN RbCI, 0: - Pm3m (001) (001) [loo] r1001 6,83 655 -4,l 08 Bar 2311 RbCN RbJ, OA--Pm3m (001) (001) [loo] [loo] 6,83 7,34 7,5 08 Bav

2.11 Siliciumverbindungen - Silicium compounds

2.11.1 Silicid - Silicide

2312

I

Fe,Si CsCl, Oi-Pm3m 2313 1::::; 1 [;::; 1 ~z; 1 E 1 z 1 :::t 1 ::: 1 ;yz4

2.11.2 Silicate - Silicates

2.11.2-l Silicate ohne fremde Anionen und ohne OH,H,O - Silicates without other anions and without OH, H,O

2314 3 CaO* SiO,, hexagonal CaO, Og-Fm3m 2315 2316

’

Phascn Ebencn Richtungen Perioden [,I] Ab- Kr.

Wirt Cast Wi* Gast Wi* wcichung

Cast Lit.

Wirt Gast %

2317 CaMg[Si,O,], Diopsid ~CG%h.(A~WB03~ (SiOJ31s (100) (100) [OOI] [OOI] 5.25 5.25 0.6 50 vu1 Sercndibit

2318 CaMg[Si,O,] Mg,[(OH),~%OI,J, Talk (100) (001) [OOI] [loo] 525 5,27 0.4 50 vu1 2319 CaMg[Si,O,J Ca,Mg,[(OH, F),~%%l, (100) (100) [OIO] [OIO] 19,82 IS,05 - 8,9 30 Spa

Tremolit 2320 C~g[%O,l NaWg, Li, F43~A1WH)l+3 (100) (1000) [OOI] [OO.l] IS,75 14,4s -&I 50 vu1

. (BOJs.Si,O,,], Turmalin 2321 Ca,[Si,O,], Wollastonit (Ca, Na, Mg, Al, Fe), - [(Si-40JI (001) (100) [OIOI [OOI) 7.29 ?,87 8‘0 50 vu1

Augit 2322 %t%QJ Ca,NaH[Sr,O,], Pektohth

;::A; (001) [loo] [loo] 7,90 7,93 0*4 50 vu1

2323 (010) [OOII WI 7,04 7,06 O,3 50 vuz 2324 (100) (100) [OIO] [OIO] 7,2s 7,09 -2,6 50 vu2 2325 AI,[O*SiO,], Andalusit Al,[O. SiO,], Cyanit (Disthen) (1 IO) (100) [OOII [OOI] 5,57 5.57 0 50 Vul; 03 Mue 2326 AlJO. SiO,] AlJO. SiO J, Sillimanit (100) (100) [OOII [OOI] 5.57 5,75 392 50 Vul; 30 Spa:

02 Wal 2327 (100) (100) [001-J [OIO] 16.71 IS,20 -9s 50 vuz 2328 (100) (100) [OIO] [OIO] 7.92 7.60 -4.0 50 vuz 2329 Al,[O=SiO,], Cyanit C, Graphit, hexagonal (100) (0001) [OOI] [II .O] 5.57 4.92 -II,7 50 vu1

(Disthen) 2330 ALJO - SiO,] AssO,, Arsenolith (100) [;;;I yy; ri: TOI 7,74 7984 193 54 Mon 4 2331 (100) [I 1 i] 5857 4,so -13,s 54 Mon 4 2332 Al,[O a SiO,] Sb,Os, Senannontit (100) (lj2) yy; [.iiOl 7374 7,ss 13 54 Mon 4 2333 (100) yg; [ii i] 5,57 4,s3 -1383 54 Mon 4 2334 Al,[O a SiO,] 2FeO~AlOOH~4A1,[0~SiOJ. (100) KJW Kw 5,57 5,63 I,1 54 Ram; 50 Vul;

Staurolith 36 Sei; 03 Mue; 02 Wal

2335 Al,[O . SiO,] Na(Mg,Li,Fe)3.Al,[(OH)l+3 (100) (1000) [OOI] [OO.l] 5.57 7,24 30,o 50 vu1 . (BO,), . Si,Or,], Turmahn

2336 Al,[O*SiO,], Sillimanit A&JO. SiO,], Andalusit (001) (001) [loo] [loo] 7,52 7.90 581 03 Mue 2337 hl,[O - SiO,] K(Mg,Fe),[(OH,F),~AlSi,O,,,], (lie) (001) [OOI] [OIO] s,53 9,23 S,2 70 Ten 233s Biotit (110) (100) wo11 WOI 8.53 9.23 s,z 70 Ten 2339

. Na,(T1,2r).[O,*S1,0,], NaFe3+[Si,O,J, Aegirin (100) (100) [OIO] [OIO] s,7s s,79 %I 30 Spa

Lorenzenit 2340 ZrSiO,, Zirkon Na,Zr[Si,O,] .2H,O, Katapleit (111) (0001) [Oli] [I i-01 13,29 12,82 -3,s 03 Mue 2341 ZrSiO, (Ca, Na),(Nb,Ta), (iii) (ill) [lio] [il2] f4,7O IS,49 5,4 50 vu1

. [(0, OH, F) . O,,], Pyrochlor 2342 Zr SiO, Y [PO,], Xenotim (100) (100) [OOl] [OOI] 5,94 6,04 I,7 54 Ram: 50 Vul;

30 Spa; 28 Roy; 03 Mue; 02 Wal



2343 CaMn[Si,O,], Johannsenit (Ca,Mn),[Si,O,], Bustamit (100) (011) [012] [IIT] 13,89 16907 15,7 GG Mor

2344 CaMn,[Si,O,,], Rhodonit CaMg[Si,O,], Diopsid (010) (100) [OIO] [TOI] f&47 12,26 --1,7 50 vu1

2345 CaMn,[Si,O,,] (Fe,Mn),[Si,O,J, Pyroxmangit (010) (010) WI PO11 6775 6,67 -I,2 50 vu1

2346 NaFe3f[Si,0,], Aegirin Na,(Ti, Zr),[O, eSi,O,], Loren- (100) (010) [OOI] [OOI] 526 524 -0,4 50 Vul; 03 Mue zenit

2347 Na4Fe,,‘W04~ &O,hl, (Na,Ca),(Fe,Mg,Al),[(OH,F), (100) [ii;; E;;;; PO11 IO,81 IO,54 -2,5 03 Mue 2348 Aenigmatit . (Si, Al),O,,], Arfvedsonit

[E; [lOOI IO,41 9,83 -536 50 vu1

2349 (Mg,Fe),[Si,O,], Bronzit Mg,[(OH),.Si,O,,], Bastit (100) [OW roo11 520 520 0 03 Mue

2350 0% W2WP61 (Fe, Mg) ZISiZOa], Hypersthen (100) (100) [OOI] [OOI] 520 521 02 30 Spa 2351 (Mg, W&%061 FeTiO,, Ilmenit (100) (1010) [QOI] [00-l] 520 5,09 -2,l 03 Mue

23 52 Wg,Wd%QJ (Mg, Fe),[SiO,],Olivin (100) (100) [OW i30~1 IO,40 IO,30 -I,0 50 vu1 2353 (W, W2Fi2W Mg,[(OH),~Si,O,,], Serpentin (200) (001) [OOI] [IO01 520 5,30 119 50 Vul; 30 @a

2354 (Mg,Ca,Fe,Mn),(Al,FeCr), TiO,, Rutil (001) (100) [IIO] [OOI] , 8s 9,l 8,14 50 vu1 . [SiO,],, Granat

2355 (Mg, Ca, Fe,Mn),(Al, FeCr), CaCO,, Calcit (111) (0001) [Ol T] [II.01 8,14 8,6j 60 50 vu1 - [SiO&

2356 (Mg, Ca, Fe, Mn),(Al, FeCr), Ca,[(OH, F) . (PO,),], Apatit (001) (1010) [I101 [IZ-01 815 8,14 -0,l 61 Kam

- WU8 2357 (Mg, Ca, Fe,Mn),(Al, FeCr), Al,[(OH,F),.SiOk], Topas (211) (010) [Oll] [OOl] %,I4 8,40 332 50 vu1

- [SiOA, 2358 GW%M%%l. (Mg, Fe),[Si,O,], Bronzit (100)’ (100) [001-j [OOI] 521 5,20 -. -d,2 30 Spa

Hypersthen 2359 (Fe, Mg) 2L%,061 FeTiO,, Ilmenit (010) (0001) [OOI] [IO*01 521 5,09 --2,3 30 Spa; 03 Mue 2360 (100) (0001) row y;y1 521 ST09 -Z3 50 Vul; 30 Spa 2361 FkM&[%061 Fe,Ol, Magnetit yy (111) Km 5,21 5,94 14,0 50 vu1 2362 (Mg,Fe),[SiO,], Olivin SiO,, Cristobalit (111) [I 001 [if23 IS,03 17,38 -366 70 Cha 2363 (010) (111) FJO~I [I IO] IO,30 IO,05 -2,4 70 Cha 2364 (Mg, Fe) 2W041 ol-FezO,, Haematit (010) (0001) [OOI] [Oj -01 IO,30 IO,08 -2,l 70 Cha 2365 (M~,WdSi041 FeTiO,, Ilmenit (010) ,(OOOI) [OOI] [Il.01 lo,30 lo,16 -I,4 50 Vul; 30 Spa 2366

[%{ (0001) [IOO] ;;;;J] 12,02 l3,20 9,s 03 Mue

2367 Wg,F4,Fi041 FeTiO,, Magnetit (111) [lOOI 6,01 5,94 -I,2 50 vu1

2368 W~,W2W%l MgAl,O,, Spine11 (010) (111) [OOI] [ITO] IO,30 II,47 II,4 70 Cha 2369 Q&z, Fe) dSQ1 Mg,[(OH),~Si,O,,], Antigorit (010) (010) [I 001 [1011 9,02 9,16 I,6 50 vu1 2370 (100) (010)

;::i; [1011 9120 9,16 -0,4 50 vu1

2371 [IO11 9,20 9,16 - 0,4 50 vu1 2372 PkFeMSQl (Ca,Na,Mg, Al, Fe),[(Si, A~)aO,l, (010) [OOII [OOI] IO,30 10,50. I,9 03 Mue

Augit

Phasen Nr.


Wirt Gast Wirt weichung

Gast Wirt Gast Lit.

Wirt Gast % --

2373 (Mg, Fe),[SiO,], Olivin Mg,[(OH, F)$. (SiO,),], Klino- (010) (010) [OOI] [OOI] IO,30 to,29 -0,l 50 vu1 humit

2374 (Mg.Fc),[SiO,] KSa,[hlSiO J4, Nephelin (010) (0001) [OOI] [II -01 10.30 10.01 -2.8 50 vu2 2375 (Mg, Fc),[SiO,] (Ca, Na, Fe, Mg, Ti, Al) (010) (100) WI roo11 IO,30 IO,40 I.0 70 Cha 2376 - [(Si, Al),O,], Pyroxen (010) (100) [OOI] [Oll] IO,30 10,28 -0,2 70 Cha 2377 (Mg,Fe)z[Si,O,], Ortho- (Ca, Na),(Mg, Al, Fe), (100) (100) [OOI] [OOI] 521 5.33 2.3 50 vu1

pyroxcn . [(OH, FL- (Si. W,02,1, Hornblende (Amphibol)

2375 (W, Fe) dW&l (Mg, Fe),[Si,O,], Klino- (100) (100) [OOI] [OOI] 5,21 522 0.2 50 vu1 pyroxen

2379 (Ca, Na, Fe, Mg, Ti, Al) . (Ca, NaMMg, Al, Feh (010) (010) [OOI] [OOI] l [ (Si, Al) tO,], Pyroxen -[(OH, F)2-(Si,AW2J,

Amphibol (Hornblende)

/ 1 WO 1 5.33 1 2,s 1 02 Wal

2.11.2.2 Silicate mit fremden Anionen, ohne OH,H,O - Silicates with other anions, without OH,H,O

23S0 Na[ AlSi,O,] , Albit &a, N&P%, Al, Fe), (010) (100) [OOI] [OOI] ?,I6 7,99 11,6 50 Vul - [(OH,F),- (Si,Al),O,J, Hornblende (Amphibol)

23Sl Na,[CI,- (AlSiO,),], Sodalith Al, kubisch flichenzentriert (1.10) (Ill) [OOI] [Ol i] S,S7 858 -3,3 49 Rho 2 2352 (K,Na) [AlSi,O,], Feldspat a-Fe,O,, Haematit (112) (0001) [ITO] [lO.O] IS,64 IS,12 -3,3 50 Vul; 30 Spa 23S3 (113) (0001) [Ii01 [IO-O] IS,64 IS,12 -3.3 50 Vul; 30 Spa 2354 (150) (0001) [OOI] [21-O] 7,19 S,73 21,4 50 Vul: 30 Spa 23S5 (110) (0001) [Ii01 [IO-O] IS,64 IS,12 -3,3 50 Vul; 30 Spa 2356 (021) (0001) [loo] [21-O] S,56 S,73 zo 50 Vul; 30 Spa 23S7 (010) (0001) [loo] [21-O] 856 873 2,o 50 Vul; 30 Spa 23SS (001) (0001) [loo] [21 .O] S,56 873 2,o 50 Vul: 30 Spa 23S9 (K, Na) [AISi,O,] SiO,, Quarz, Di-P3121 (100) (IOil) [OOI] [Ol*O] 14,38 14,99 4,2 02 Wal 2390 (010) (1ioo) [loo] [21-o] g,56 S,66 12 02 Wal 2391 (K, Na) [AlSis08] CaJ(PO,),(OH, VI. Aptit (100) (1010) [OOI] [00-l] 7,!9 6,S9 -4,2 62 Kam 2392 (I~, Na) [AlSi,O,] (Ca, Na, Mg, Al, Fe), (100) (100) [OOI] [OOI] 14,35 15.75 9,s 50 vu1

. [(Si,Al),O,], Augit 2393 (K, Na) [AlSi,OJ Al,Be,[Si,O,,], Beryll (001) (0001) [loo] [I i.o] S,56 s,oo -6,s 50 vu1 2394 (K, Na) [AlSi,O,] K(Al,hlg,Fe)?_,[(OH,F), (001) (001) [loo] [loo] $56 s,oo -695 50 vuz

. AlSi,O,,], Glimmer 2395 (010) (001) [loo] [loo] 8,56 8.00 -6.5 50 vu1 2396 (K, Na) [AISi,O,] Na(Mg,Li,Fe),.Al,[(OH),+, (010) (1120) [OOI] [OO*l] 7,19 724 0.7 50 vu1

. (BO,), . Si,O,,], Turmalin 2397 K [AlSi,O,], Mikroklin Na[.&lSi,O,], Albit (001) (001) [IO@] [IO01 s,57 s,14 -580 58 Ker 239s (010) (001) [IOU] [loo] S.57 s,14 -5,o 5s Ker

Q, *

No. Substrate

Phases

Deposit

Planes Directions Periods [A] Sub- De- Sub- De- Sub- De- Misfit Ref. strate posit strate posit strate posit %

2399 K [AlSi,O,], SiO,, Quarz, Di-P&21 (001) (0001) [loo] [21.0] 8,57 8,51 -0,7 67Gri Mikroklin

2400 KNa, [ AISiO,] 4, Nephelin (Ca,Na,Mg,Al,Fe),[(Si,Al),O,], (1010) (100) [01.0] [OIO] 9,oo 8,40 -6,7 50 vu1 Augit

2401 KNa,[AlSiO& (NaAlSiO,), + CaCO, .2H,O, (IOIO) (IOTO) *[00.4] [OOh] 16,82 IS,15 -9,9 50 Vul; 03 Mue 2402 Cancrinit (0001) (0001) [IO-O] [12.0] 1601 lo,96 9.5 50 Vul; 03 Mue 2403 KNa,[AlSiOJ, (K, Na) [AlSi,O,], Feldspat (1000) (010) [OO. I] [loo] 8,41 8,56 13 50 vu1 2404 K[AISi,O,], Orthoklas Hg Jz, Coccinit (001) (010) PO1 [IO11 13m 13,ll 68 54 Mon. 4 2405 2406 K[AlSi,O,] NaCl, Halit

;::i; (010) E1101 im~l 15,57 l&36 -20,6 54 Mon. 4 [%{ [IO01 11101 8956 7,98 -6,8 50 Wil; 49 Neu I

2407 w 1 [0101 [I101 13,oo II,97 - 7,9 49 Neu I 2408 K[AlSi,O,] HgBr,, C$-Bb2m (001) (010) [IIO] [301] f5,57 IS,63 19,7 54 Mon 4 2409 K[AlSi,O,] KBr, Oz--Fm3m (001) (001) [0101 [I 001 13,oo 13,20 I,5 52Neu3;51 Wil;

50Neu3 2410 g:;; (110) PI01 [0011 13m 13,20 I,5 51 Wil; 50 Neu 2 2411 (100) [I 001 [0101 17,12 19,80 f5,7 51 Wil; 50 Neu 3 2412 (110) [IO01 [I IO] 8,56 9,32 a,9 51 Wil; 50 Neu 3 2413 K[A1Si,08] NaBr, Oz-Fm 3m

;::i; (111) [1001 [112] 8,56 7,32 --14,5 50Neu2

2414 (OOf) (111) ;:A:; [I IO] 13,OO 12,66 -2,6 50Neu3 2415 (001) (110) [f101 856 8,44 -1,4 50Neu2 2416 (001) (110) WOI [IO01 13,oo II,94 --8,2 50NeuP 2417 K[A1Si,08] NH, J, Oz-Fm3m (010) (110) roo11 [I Ill 14,38 14,84 392 54 Wil I 2418 K[AISi,O,] KCl, Sylvin (001) (111) [OIOI r1101 13,oo 13,35 i,7 51 Wil; 50 Neu 2 2419 (001) (111) [I 001 [If21 8,56 7,72 -9*8 5ONeu3 2420 (001) (110) w101 l-1001 13,oo l&58 -3,2 5ONeu2 2421 (001) (110) [loo] [IlO] 8,56 8,90 4,o 50NeuJ 2422 K[A1Si,08] Ca,[(OH) . (PO,),], Hydroxyl- (010) (1120) [OOI] [OO*l] 7,19 639 -4,2 50 vu1

Apatit 2423 K[AlSi,O,] Na[AlSi,O,], Albit ;EJ; ;%; [lOOI [I 001 8,56 8,14 -499 03 Mue 2424 [OW lwl 7,19 7,16 -0,4 54 Ram 2425 K[AlSi,O,] (Ca,Na,Mg,Al,Fe),[(Si,Al),O,], (010) (100) [loo] [OIO] 8,56 9,oo 5,1 03 Mue

Augit 2426 K[AlSi,O,] K~t~)a[(OH,F)a.AISi,O,,l, (001) (001) [fool I3101 8>56 9,23 7,8 03 Mue

2427 K[AlSi,O,] KAl,[(OH,F),~AlSi,O,,], y;; (00’) [I OOJ r1001 8,56 7,79 -9,o 03 Mue 2428 Muskovit [~OOI iI1 001 8,56 7,79 -9,o 03 Mue 2429 (001)

;:::i [1001 [1001 8,56 7,79 -9,o 03 Mue

$430 K[A1Si,08] (Ca,Na) [(Si,Al),O,], Plagioklas (010) (010) [OOI] [OOl] 7,19 7,13 -0,8 62 Kra; 50 Vu1 2431 (100) (100) wo11 [0011 7,19 7,13 -0,s 62 Kra: 50 Vu1

:

Nr.

2432

2433

2434 2435 2436 2437 2438

2439 2440 2441

2442

2443

2444 2445

2446

2447

2445

2449

2450 2451 2452 2453 2454 2455 2456 2457 243s

T Phasen

Wirt Gast

Na,,,-,,,Ca3.,-,.,[*1,,,_,,, l Si,,,-,,,O,], Rndesin

Na, ,-o.aCa3,3-,,3[*11.3-l,~ ~%7-dbl

(Ca, Na, Mg, Al, Fe) L l [ (Si, Al) aO,], hugit

(Ca,Na,Mg,Rl,Fe), - [(Si, AWBl

(Ca, Na, 1Mg. Al, Fe), - [(Si, *1),0,

(Ca, Na, Mg, Al, Fe) a - [W, *W,J

(Ca, Na, Mg, Al, Fe), . [(Si WD,l

(Ca, Na, Mg, Al, Fe) 2 - W, -W,O,l

(Ca, Na. Mg, Al, Fe)a - [(Si, *W61

TiO,, Rutil

Mg,AI,[O, . SiOJ, Sapphirin

FeTiO,, Ilmenit

Fe,O,, Magnetit

Mg,[(OH), . Si,O,,,]. Antigorit

K (Mg. Fe)J(OH, F),~*WOIol. Biotit

(Mg, Fe),[Si,O,], Bronzit

(Ca, Na, Mg, Al, Fe), - [(Si, Al) @d

Na3,,-3,,Caa,,-3,,C*1,,,_,,~ . Si,,,-,,,O,], Labrador-it

Na3,3-3,,Ca3,1-3,~CSie.s-e,i l Al,,,+,O,], Oligoklas

(Na,Ca) CC% *1),%1, Plagioklas

(Na,Ca) iI*4-88-d4J, l Na,(Cl,,SO,,COd, Skapolith

(Ca,NaM(*l,W . (Si, Al) eO,], Melilith

Al,[(F, OH),* SiO,], Topas

K(Mg. Al, F%.-,[(0H, FL .AlSi,O,,], Glimmer

(Ca.NaMMg. Al, WWH, FL . (Si, Al),O,& Hornblende (Amphibol)

KNa,[AlSiO,],, Nephelin


Ca,[(OH, F) . (PO,),], Apatit

TiO,, Rutil

Ca,[(P04h(OH, VI, *patit

(Ca, Na,Mg, Fe, AM(% *l)@d, Augit

Hg Jz, Coccinit

Al,[(F,OH),.SiOJ As,O,, Arsenolith

AI,[(F, OH), . SiO,] (Mn, Fe),Os, Bixbyit Mg,l(*l,Fe),*1Si,O,,l. K..(AI,Mg,Fe),-,[(OH;F),

Corclierit + AlSi,O,,,], Glimmer

T Ebenen

Wirt

(100)

(010)

(001)

fz:;; (001) (100)

(100) (110) (100)

(110)

(100)

(100) (010)

(010)

(100)

(010)

(120)

(001) (110)

;:::; toof 1

;::A; (001) (010)

Gast

(100)

(010)

(0001)

;K;’

K

(001)

;::i;

(012)

(100)

(010) (001)

(001)

(ioio)

(100)

(ioio)

T Richtungen

Wirt Gast

WI

WI

[IO01 ro101 WI PI01 WI

row row WI

row

WI

[Ocll] [1001

Pm

[OOll

[OOII

Kw

[ilO]

;E; [I101 [IO01 ro101

;::A; [1001

[OOfl

iY1001

[lO.O] [li.o] [I121 [i io] [IO01

II1001 [1001 [OOI]

[IO01

roo11

row [1001

r1101

[OO.l]

WI

[00.1-J

T Perioden [A]

Wirt Gast

Ab- weichung

%

14,22 14,so 481

lo,67 11,26 5,s

9.80 lo,16 3,7 9.00 s,so -2.2

~O,SO IO.25 -2,l 9.00 &91 -I,0 525 5,30 11,O

fO,50 IO,18 -3,o 10,50 IO,18 -3.0

5.25 wo -I,0

520 5.30 199

525 5,33 1,s

525 930

5.33 IO,01

1,s 281

7,10 7,43 46

7,13 639 -3,4

53 Gam

50 vu1

30 Spa 50 Vul; 03 Mue 59 Bow 59 Bow 50 vu1

50 Vul; 03 Mue 50 Vul; 03 Mue 03 Mue

02 Wal

54 Ram: 50 Vul: 30 Spa; 03 Mue 50 vu1 50 vu1

50 vu1

6I Kam

14,26 14,so 3s 50 Vzd

7,59 659 -92 61 Kam

5,47 5925 -4,0 50 vu1 5802 525 46 50 vu1 465 4,36 -6,2 54 Mon 4

29,ss 26,22 -12,2 54 Mon 4 13,95 13,5S -2,7 54 Mon 4

&SO 7.53 -II,0 54 Mon 4 8,40 8.47 0,s 50 vu1 9,so 10.60 s,2 50 Vul; 03 Mue

17,13 IS.40 7,4 50 vu1

Lit.

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Sub- De- Misfit


strate posit &rate posit strate posit

2459 2 FeO- AlOOH- 4 Al, FeTiO,, Ilmenit (100) (Olll) [OOI] [lO.O] 5,63 5,08 -9,s 50 Vul- l [O-SO,], Staurolith

2480 2 Fe0 . AlOOH .4 Al, Al,[O . SiO,], Cyanit (Disthen) (010) (100) Kw Iwl 5,63 5,57 -I,1 3OSpa 2461 - [0 - SiO,] (010) (100) II1001 WlOl 7,82 7,74 -I,0 30Spa

2.11.2.3 Silicate mit OH,H,O, ohne fremde Anionen - Silicates with OH,H,O, without.other anions

2462 NaBe[(OH)*Si,O,],Epi- NaBe[OH . Si,O,], Eudidymit (001) (001) [0101 w101 7,34 7,38 0,s 50 Vd, 03 Mue didymit

2463 %~l(OH)8~%%l~ Mg(OH),, Brucit (001) (0001) [loo] [II-O] 5,34 '5,42 1,s 50 vu1 Chrysotil

2464 Mg6[PH)8~%0,01 CaCO,, Calcit (100) (0001) [OOI] [Ol -01 5,33 4,98 -6,6 57 Won; 54 Gay 2465 (010) (lOi4) [OOI] [01-O] 5,33 4,98 -6,6 57 Won; 54 Gay 2466 (010) (IIOZ) [OOI] [If.11 21,32 19,12 -IO,3 54 Gay 2467 (010) (1126) [OOI] [If.01 15,99 17,28 8,l 54 Gay 246% (010) (4150) [OOI] [OO.l] IS,99 .17,06 54 Gay 2469 (100) (lfO2) [OOI] [If.11 21,32 19,12 -1::: 54 Gay 2470 (100) (11~~) [OOI] [22*1] 21,32 19,76 - 7,3 54 Gay 2471 (100) (1104) [OOI] [ZZ.l] 26,65 24,28 --8,9 54Gay 2472 W,CW%~WM, Talk NH, J, Oz--Fm3m (001) (001) ” [OIO] [IIO] 9,12 IO,26 12,s 53 Wil 2473 MgdPH) a - SL%l Mg,[(OH), e Si,O,,], Antigorit (001) @Of) [loo] [loo] 5127 5,30 66 50 vu1 2474 MgdPH) 2 - %%l (Mg,Fe),[Si,O,], Protoenstatit (001) j100) [OIO] -[OlO] .9,12 8,74 : -4,2 64 Kle I; 62 Geh 2475 Al-Be[(OH)-SiO,], Euklas Hg Ja, Coccinit (010) (010) [IOI] [OOI] 12,04 12,36 2,7 54 Mon 4 2476 Al.Be[(OH) .SiO,] HgBr,, C&- Pb2m (010) (010) [IOi] [OOI] 13,06 l&45 -4*7 54 Mon 4 2477 AI,[(OH),~Si,O,,], Kaolinit H,O, Eis-I (001) (0001) [OIO] [IO.01 8,90 9,04 I,6 48 Kie 247% ALW% - Swill Al,[ (OH) 8. Si,O,,], Fireclay (001) (001) [1001 [1001 5913 5,09 -0,s 60 Obe 2479 Na,Zr[Si,O.J-2H,O ZrSiO,, Zirkon (0001) (111) [II .O] [lIO] 14,80 14,Ol -5,3 50 vu1

Katapleit 2480 (Ca.Ce),* (Al,Fe),[O-OH Ca~~~~),[O.OH.SiO,.Si,O,l, (001) (001) [loo] [loo] 8,98 &98 0 50 vu1

l SiO,* Si,O,], Allanit 2481 (Ca, Ce),. (Al, Fe),[O -OH (Ce,La, AM(OH) . WO&l, (010) (010) [OOI] [loo] IO,23 10978 5,4 50 vu1

. SiO,. Si,O,] Tomebohmit 2482 (Ca,Na),(%,FeAl), Fe,O,, Magnetit (001) (001) [010] [loo] l&19 17,76 -2,4 02 Wal

l [(OH,F),* (Si,A1)&M, Amphibol (Hornblende)

2483 Ca,(Al,Fe),[O-OH-SiO, (Ca,Ce),. (Al,Fe),[O.OH.SiO, (001) (001) [loo] [100] 8998 8,98 o- 02 Wal l Si,O,] , Epidot . Si,O,], Allanit

Nr. Phascn Ebenen Richtungen

Wirt Gast Wirt Gast Wi* Gast


% Lit.

Wi* Gast

Ca,AI,[OH(SiO,),], Zoisit

n-WOOH, Goethit

(Ca,Mg, JkW2[(%AW61, Augit

(Ca, W,(Mg, Fe,Al),iKW Fh e (Si, Al)&,,], Hornblende (Amphibol)

(Mg, Fe),[SiO,], Olivin Ca,[(OH, F) . (PO,),], Apatit

2454 24S5 24%

2457

2488

2489 2490

2491

2492

2493

2494

2495

2496 2497 249s

2499 2500 2501

2502 2503

2504 2505 2506 2507

Ca,(Al, Fe),[O .OH.SiO, . S&O,], Epiclot

CaFe~+Fe”+[OH*O*Si,O,], llvait

(Mg,Fe),l(OH),*Si,O,,l, Scrpcntin

(Mg, l+h[(0H),~Si,0,,1

(100) (010) (010)

(010)

(010)

(001) (ioio)

5,64 11,2s

s,s4

5,30

5.30

lo,60 IS,05

-I,1 -10,s

592

-0,9

0,6

50 Vul 03 Mue 50 Vul

30 Spa: 03 Mace

30 Spa: 03 Mue

-566 30 Spa; 03 Mue 4,O 61 Kam

Wg, WoUOW8~%Qol Ca,Mg,[(OH),.Si,O,cl.

Tremolit

2.11.2.4 Silicate mit fiemden Anionen und OH,H,O - Silcates with other anions and OH,H,O

Na,[AI,Si,O,,]~2H,O, Natrolith

Na,[Al,Si,O,,] .2H,O

KMg,[F,- AlSi,O,,], Fluor- Phlogopit

Mg,[(OH,F),*(SiO,),l, Humit

%JWWMSWM. Klinohumit

MgdOH, WSiQM

Na,Ca,[Al,Si,O,,], - SH,O, Mesolith

NaCa,[Al,(Al, Si)Si,OI,,], .6H,O, Thomsonit

a-Fe, kubisch raumzentriert

lMg,[(OH, F),. (SiO,),], Klino- humit

Mg,[(OH,F),-(SiO,),], Humit

(Mg, Fe),[SiO,], Olivin

KMg,[(OH,F),* AlSi,O,,l, Phlogopit

KMg,[(OH,F)2-A1Si,0,,]

NH, J, Oi-Fm3m

KCa,[F- (Si,O,,),] l 8H,O, Apophyllit

KCa,[l;. (SiO,,),] -SH,O (NaAlSiO,),- CaCO,-2H,O,

Cancrinit

Chondrodit CaCO,, Calcit

Ca[Al,Si,O,s] - 7 H,O, Stilbit cu-Fe&,, Haematit

(NaAlSiO,), .CaCO,.2H,O Fe,O,, Magnetit

(010)

(1 io)

WI)

(010)

(010)

(100)

g::; *

(001) (001) (001)

(001) (loio)

(1120) (roio) (IIZO) (loio)

(100) (010) (III) (010) (100) ;oo:;; (Ill) (010) (010) (0001

(001) (0001

(0001 (0001 (0001 (III)

[OOII

wo11

[1001

WI

WI

;z:; [1001

DO1 [I201 [1001

[1001 [OO. I]

[OO.l]

;i:-:; Loo: 1,

~0~01

wo11

[oi i]

PW

roo~l

LOI 01 [I 001 [I io]

[I 001 PO11 [IO.01

ro101 [II .O]

[II .O] [IO.01 [IO.01 [II>]

19883 1 s,4s -6,8

13,22 13925 02

IO,66 IO,10 -5,3

IO,25 lo,29 084

10.29 IO,25 -0,4

4375 4,78 0,6 13871 12,02 -12,3

5,33 5,13 -3s

9,23 7.59 19821 20.55

9,02 9.96

1 s,o4 Sal5

5,lS 5,15 5,15 5915

IS.17 5.04

5.04 5,04 5.04 5.14

-14.5 7,1

10.4

0,7 -2,l

-2.1 -2,1 -2,i -0,2

50 Vul

50 Vul

66 Pw

50 vuz

30 S#a; 03 Mue

30 .‘+a; 03 Mue 03 Mue 67 Mor 2

50 Koe 50 Koe 50 vu1

50 vu1 50 Vul; 30 Spa: I I Joh 50 Vul; II Jon 50 vu1 50 Vul 50 vu1

wr. Phases Planes Directions Periods [A] c.1 In c. 7 I h- ” 1- , h- Misfit D,.C

IY”. .

2508

2509 2510 2511

2512

2513

2514 2515

2516

2517 2518

2519 2520 2521 2522 2523 2524 2525 2526 2527 2528 2529 2530 2531 2532 2533 2534 2535

2536 KAl,[(OH, F),~AlSi,O,,,] B-Ag J, Jodargyrit 2537 KAl,[(OH, F)2. AlSi,O,,] KBr, O%--FmSm

Substrate Deposit

(NaAlSiO,), . CaCO, -2 H,O, Cancrinit

(NaAlSiO,), . CaCO, .2H,O Ca,[Si,O,,] -4H,O, Gyrolith Na,Ca2[A1,Si,0,,], . SH,O,

Mesolith W,H,O)Al,- I:K’H,H,O),

. AISi,OI,], Hydro- muskovit

KLi,AI[(F,OH),~Si~Old], Lepidolith

KLi,Al[ (F, OH) z m Si,O,,] KA1,E(OH,F),*AISi,O,,l,

Muskovit

NaFe3+[Si,0,], Aegirin

(NaAlSiO,), .Na,SO,, Nosean CaCO,, Calcit Na,[Al,Si,O,,] .2H,O,

Natrolith NHq J, Oi-Fm3m

NH, J, Oi--Fm3m

NH&l, Salmiak Ag, kubisch flachenzentriert

KAl,[(OH, F)Z. AlSi,O,,,] KAl,[(OH, F),. AlSi,Or,] KAI,[(OH, F),. AlSi,O,,]

KAl,[ (OH, F) z. AlSi,O,,,] Fe, kubisch raumzentriert

KAl,[(OH, F),~AlSi,O,,,] Ni, kubisch flachenzentriert

KAl,[(OH, F)z. AlSi,O,,,] Pt, kubisch flachenzentriert

KAl,[(OH, F)z e AlSi,O,,] Sb, Dz,--Rjm KAl,[ (OH, F) z. AISi,OrO] CsPF,, TE-Pa3

As, Di,-Rjm Bi, Did - Rjm Cu, kubisch flachenzentriert

3UD-

strate

1 (IOTO)

(IOTO) (0001)

(100)

(001)

(001) (001) (001) (001) [:::; (001) g:; (010) (010) (001) [:::; [z::; (001) [ii:; g::; (001) (001) (001) (001)

(1 IO) (0001)

(100)

(,lll),

(111)

(111)’ (111)

(111)

[:Y:; (111) (111) (111) (ii2)

t:::; (110)

I:::{ (111)

[:::; (111)

[:::; (111) (111)

3UD- --I strate

coo. I]

[OO. I] [IO.01

row

[1001

PO01

iI [1001

[I 001

I3101 [I 001 lIlOO1 ClW iI [1001 [I 001 [1001 [1001 [0101 [lOOI [lOOI I3101 II1 001

EE; [1001 [1001 ri1001

[IO01 [IO01

p”Zit

DW

[I111 [iO.O] PO1

[I IO]

[I lo] 5,21 1 5,13 -4,s 67 Mor 2

[I IO] Sk-1 5.949 5,4 [I iO] 5,*2 5,77 1297

[2Ti] 5,12 $04 -I,6

iI [I IO] [I IO]

[I iO] [2Ti] rz1~01 [I?21 [zli] [i i2] [iio] [iio] [zii] [iio] [21i] [IIS] [ii01 [zii] [ii01 [I 101

4,52 IS,57

5,12

5,12 5,12 5;12 5,12

IO,38 IO,38

8,98 IO,38 IO,38

9,04 IO,38

9,04 IO,38 lo,38

5,19 5,19

4,08 -9,7 15,24 -2,l

4354 -II,,3

5,16 098 4,47 --12,7 ,5,16 48 4,47 -1297

IO,98 5,s IO,98 5,s

%,I4 -9,4 lo,16 -2,1

9,68 -6,7 lo,16 12,4

9,68 -6,7 9960 62 9,10 -12,3 9,60 -7,5 4,51 -13,l 5.32 12,l

[lO*O] 5,19 4,59 -13.5 [tic! ,10,08 9942 -6,5

66Aw f 63Cap;50 Thi; 39 Ess; 37 Rue 5ONeu I:50 Thi; 37 Rue 50 Thi 63 Ca?

65 Her; 63 Ca?

63Cap:61Ca~5 f 63 ?a$: 61 Cap I 6lCa$ I 6ICa$ I 63Ca9;50 Thi 50 Thi 61Ca93 63Cap:6l Ca$3 63Cap 61CapP 65 Puh 53vot 63Cap 63Cap 63 Cap 49 Mer: 36 Sei; 32 Roy I 7ococ 49 Mer; 08 Bar; 03 Mue ”

3UD-

strate

5,18

IS,45 i 15,56 097 50 vu1

9,80 9,96 I,6 50 vu1

6,61 ,655 -0,9 II Kre

5,19

ue- posit

’ 5,26

5,13

%

1,s

-I,2

50 Vul

68 Mor; 67 Mor 2 65 Aw

Nr.

2538

2539

2540 2541 2542

2543 2544

2545

2546 2547 2548 2549 2550 2551 2552 2553 2554 2555

2556 2557 2555 2559 2560 2561 2562 2563

2564 2565 2566 2567

Wirt


Gast Wirt Gast Wirt

KAI,[(OH, F),*AlSl,O,,], Muskovit

KAI,[(OH, F), . hlSi,O,,,] KPF,. Tg - Pa3

KAl,[(OH,F),~AlSi,O,,,] K,PtCl,, T,B, - Pa3

KAl,[(OH,F),~AlSi,O,,,] NH,PF,, Tt-Pa3

K.Al,[(OH, F),.AISi,O1,] RbPF,, Tz - Pa3 KAl,[(OH, F),.AlSi,O,,,] NH&l, Salmiak KAI,[(OH, F),.AlSi,O,,,] KCl, Sylvin

KAl,[(OH, F)z. AISi,O,,,] TlCl, Ok-Pm3m

KAl,[(OH, F),. AISi,Ol,] TiO,, Brookit KAl,[(OH, F), . AISi,Ol,] cu,o, Cuprit

KAl,[(OH. F), . A&,0,,] SiO,, Quarz, D:-P3,21

KAI,[(OH, F)z - AISi,O,,] CsNO,, kubisch K&P-J FJ3 ~AWU CsNO,, O$, - P&m

KAl,[(OH, F),.AISi,O1,] LiNO,, D&,- Rjc

KAI,[(OH, F),~AISi,O,,,] NH,NO,, Nitrammit-I

KAI,[(OH, F)3. AlSi,O,,] NH,,NO,, Nitrammit-II

KJ, Oz-Fm3m (III)

(II!)

I:::; (III)

(III) (III) (III)

(III) ;:A;;

;:y (110) (100) (III) (III) (IOil)

;;:::; (lOi2) (100) (IIZI) (1121) (lIZI) (0001)

(100)

I:::{

(110)

[1001 II~lOl IO,08 9.98 -I,0

[1001 [i io] 525 5,49 4.6

[I 101 [i io] IO,42 IO,39 -0,3 [OIOI [i io] 9.04 10.39 f4,9 Elool [i io] 5,30 5.62 60

[I 001 [I io] 5819 5,60 7.9

[I 001 [i io] Sal9 5.49 5,S

[1W [I io] IO,08 St90 -11,7

[I 001 r1001 [IO01 [1001 [I101 [i io) [I 001 ro101 [1001 [fool

[i io] [ilo]

[E:; W~l [i io] WI [I io] [zii] [Ol .O]

lo,60 s,91 lo,60 8,91 IO,60 12,60 I 0,60 s,91 IO,62 Il.52 IO,62 10.86

5930 5.15 9,04 9906

lo,38 10.48 5,19 4.91

-15,9 -1599

IS,9 -1599

8,s 2.3

-2,s 0.2

2::

[1001 [1001 [IO01 [0101 [OIOI

;: ;:; [1001

;:i:; [II01 [3101

[II SO] [II .O] [Ol -01 WOI [IO.01 [IO-O] [IO.01 [IO-O]

PW P101

;%;

5.19 4891 - 5,4 5319 4,9J -594 5819 4,91 -54 S,9S S,92 -0,7 9,04 lo,87 20,2 9,21 10.87 IS,0 9921 10,87 IS,0 St19 4,67 -IO,0

s,9s S,80 -2,0 IO,40 8,So -15,4 10,40 IO,00 -3,s

S,9S s,12 -936

Gast

Perioden [A] Wirt Gast

Ab- weichung

% Lit.

68 ViZ; 66 Arr 2; 66Arr 3; 65 Arr; 50 Neu I: 49 Mer; 08 Bar; 03 Mue: 02 WaZ 49 Mer; 35 Sei; 32 Roy f 57 Fer 2 57 Fer 2 49 Mer; 36 Sei: 32Royi 49 Mer; 32 Roy 1

66 A77 ?

49 Mer; 08 Bar; 03 Mue 52 Pas 2 52 Pas 2 52 Pas 2 52 Pas 2 51 Sch 2 51 Sch 2 50 Vul 66 Arr 3; 63 Ca? 63 Cap 54 Fra; 50 Vul; 02 Wal 50 vu1 50 vu1 50 vu1 59 Fer; 58 Fer 59 Fer; 58 Fer 59 Fer 58 Fer 49 Mer; 32 Roy 1; 30 Spa 46Hoc; 45 Hoc 1,2 46 Hoc 46 Hoc: 45 Hoc I,2 45 Hoc 1,2

2 Inorganic-inorganic

epitaxies 89

, G

ebhardt /Neuhaus

Nr.

2GOO

2601

2602 2603 2604 2605

2606

2607

2608 2609 2610 2611 2612 2613 2614 2615 2616 2617 2618

2619

2620

2621 2622 2623 2624 2625

2626 2627 2625

Wi*

Phasen Ebenen Richtnngen

Gast

K(Mg, Fe=),[(OH, F), . AlSi,O,,], Biotit

K(Mg, l~e”+),[(OH, F), . hlSi,Ol,l

K(Xlg,l++),[(OH,F), . AISi,O,,]

K(Mg,Fe2+),[(OH,F), . AlSi,O,,]

Wg, Al,Fe),[(OH),~ (SC AQ&l*3Mg(OH),, Chlorit

(Mg, Al, Fe),[(OH)2. (Si, W,O,,l- 3Wz(OH),

(Mg, Al, Fe)3[(OH), . (Si, W,%l~ 3%(OW,

(Mg,Al, Fe),[(OH),. (Si, Al),O,,,] . jMg(OH),

(Mg,Al,Fe),[(OH),.(Si, Al),%,] -3Mg(OH),

Wg, Al, Fd,[(OW, - (Si, Al),O,,,] .3Mg(OH),

(l\lg,nl,Fe),[(OH),.(Si, -QO,,] -3 Mg(OH)?

(Mg, Al, Fe),[(OH), . (Si, +W,O,,l ~3 %(OH),

(Mg, ;\I, Fe),[(OH),. (Si, X1),O,0] .3Mg(OH),

K(AI,Mg,Fe),-,[(OH,F), l AISi,O,.l, Glimmer

KJ, O:-Fm3m

KCl, Sylvin

CaCO,, Calcit

(Ca,Na),[(Al,Mg) -(Si.AW,l, Melilith

W,O,, Magnetit

TiO,, Rntil

Mg(OH),, Brncit

KCIO,, DZt-Pbnm

NH ClO,, 4 D,‘t-Pbmm

CaMg(CO&, Dolomit

K(Al,Mg,Fe),-,[(OH.F), . AlSi,O,& Glimmer

KMg,[(OH. F)z ~-4Ei&1, Phlogopit

KMnO,, DiP,-Pbnm

Ag, hexagonal clichteste Kugelpackung

Al, kubisch fllchenzentriert

Au, kubisch flgchenzentriert

Gast

(Ill)

(111)

(01 i0) (ioio) (0001) (001)

(111)

(100)

(0001) (0001)

;:z:;

;s::; (001)

~Ej

(001) (0001)

(001)

(OOf)

;:i:;

g:; (0001)

\::A; (111)

Wirt

[I 001

[lOOI

[I 001 r~ool [IO01 [pool

[1001

[1001

[IO01 ro101 [I 001 11301

;A$; [1001

:: ;:; [Of01 [IO01

[1001

r1001

[pool

;: 3:; w101 [0101

[I 001 r1w [I 001

Gast Wirt Gast

Ab- weichung

%

[i To]

[I TOI

5,30 4,99 -5,s

530 4,45 -166,O

[iO.O] 10.62 9,96 -6,2 [Ol .O] lo,62 9,96 -6.2 [I1 .O] lo,62 9,96 -6.2 [II01 IO,62 lO,SS -0,4

68 Vd; 66 Arr 2; 51 Jan: 03 Mue 51 Jan: 03 Mue

02 Wal 02 Wal 50 Vul; 03 Mue 03 Mue

[ol i] 530 5,94 12,l fOS$a:28 Roy

roo11 530 5.92 1197 50 vu2

[ii-o] 530 5942 [II .O] 9,30 9,39 Lo* 01 530 5,66 [0101 25.40 2S,30 ro101 2S,40 28.30 [1001 9930 s,s5 W~OI 5.30 580 P~OI 2S,40 29,OO ro101 28,40 29,OO [IW 9,30 922 [lO.O] 530 4,82

2,3

is -0:4 -0,4 -4,s

9B4 &I 2.1

-0.9 -9.1

[I 001

[fool

I3101 ro101 LOI 01 [I 001 [IO.01

[Ii01 PO11 [iio]

5,30 5,30 0

5830 5,33 0~5

58 Eck 58 Eck 32 Roy 1 32 Roy 1 32 Roy 7 32 Roy 1 32 Roy 1 32 Roy 1 32 Roy 1 32 Roy 1 30 Spa; 28 Roy: 03 Mue 28 Roy: 03 Mue

50 vuz

5930 5,73 S.1 32 Roy 1 2S,40 2S,65 O-9 32 Roy 1 28,40 a,65 a9 32 Roy 1

9.30 9.10 -2,2 32 Roy 1 Se96 S,64 -396 48 And

530 5873 15.90 16,20 lo,60 11.52

49 Rho 2: 49 Wit 51 Wil; 49 Rho 2 50 Neu 1; 49 Mer: 37 Rue

Perioclen [A] Lit.

Phases NO.

Substrate Deposit Ref. 1 giGit 1 gir[?kt 1 ~~~~~~~~ ‘SF /

2629 K(ALMg, Fe),-,PH, F), Au, kubisch flachenzentriert (001) (111) [0101 [I IO] 920 8,64 ,6,1 49Mer . AlSi,O,,], Glimmer (Fortsetzung)

2630 K(Al, Mg, W2-dPH, FL (Au, Ni), kubisch flachen- (001) (111) [I 001 [I IO] IO,60 10376 1,s Ii4 Fra 2 . AlSi,O,,] zentriert

2631 WW&, Fe),-d(OH, FL Be, hexagonal dichteste (001) (loio) [loo] [oo.~] lo,60 lo,77 1,6 64 VeY . AlSi,O,,] Kugelpackung

2632 K(A1, Mg, Fe) 2--3UOH, F) 2 C, Graphit (001) (0001) [loo] [IO.01 5,30 4,92 -792 50 Vd . AlSi,O,,]

2633 K(Al,Mg, Fe),-d(OH, FL Pd, kubisch flachenzentriert (001) (111) [1001 [I IO] 5930 5250 3,8 50 Neu I; 49 Mer; . AlSi,O,,] 37Rue

2634 (001) (III) [0101 [I IO] 920 II,00 I%6 49Mer 2635 K(U Mg, Fe) 2--3WH, F) z Ti, hexagonal dichteste Kugel- (001) (0001) [loo] [Il.01 5,30 5990 II,3 @Gru I

. AlSi,O,,] packung 2636 K(A1, Mg,,Fe),-,[(OH, F)Z KBF,, Avogadrit (001) [1001 [Of01 IO,20 8,10 -20,6 54 Roy; 36 Roy

2637 . AlSi,O,,] (001) [I301 COlOl 9,37 8,10 -13,6 36.Roy 2638 (001) (001) [I301 P101 9,37 8,10 -13,6 36Roy 2639 K(Al,Mg, W,-d(OKF)~ AgBr, Bromargyrit (001) (111) [loo] [IiO] 15990 16,36 a9 52 Pas 2

. AlSi,O,,] 2640 K(A1,Mg,FeL8[(OHXF), KF, Carobbiit (001) (III) [1001 [I IO] IO,20 II,31 IO,9 51 Sch I

. AlSi,O,,] 2641 K(Al,Mg, Fe)2--3[(OH;F)2 AgC1, Chlorargyrit (001) (111) [1001 [I IO] IS,90 15,72 -I,1 52 Pas 2

. AISi,OI,] 2642 K(Al,Mg,Fe),&(OH,F), PbCl,, Cotunnit (001) (010) WOI WI 920 . 9,06 -1,s 54 Roy; 35 Roy 2643 . AlSi,O,,] (001) (010) [310] [OOI] 9919 9,06 -I,4 35120~ 2644 I--_ (001) (010) [3TO] [OOI] 9,19 9,06 -I,4 35120~ 2645 K(Al,Mg,Fe),-,[(OH,F), CsBr, Oz--Fm3m (III) r1001 [I IO] IO,60 IO,26 -322 54 Lis 2646 . AlSi,O,,] (III) WOI [IIZ] 9,20 8,86 -3,7 54 Lis 2647 K(Al,Mg,Fe),-,[(OH,F), CsBr, OA-Pm3m (001) (001). [loo] [loo] IO,60 8,60 ---1&g 51 Sch I 2648 . AlSi,O,,,] (001) (001) [OIO] [OIO] 920 8,60 -6,s 51 Sch 1 2649 K(A1, Mg, Fe),:,[(OH,F), CsC1, Og-Fm3m (001) (001) [loo] [loo] IS,90 13,88 -12,7 51Sch 1 2650 . AlSi,O,,] w101 WOI 9,20 6,94 -24,6 51 Sch 1 2651 K(Al,Mg,Fe),-,[(OH,F), CsJ, Og-Fmjm [IO01 [I TO] 5,30 5,43 295 54 Lis 2652 . AlSi,O,,] (001) (111) [OIO] [IIZ] 920 9,38 '2,O 54 Lis 2653 K(Al,Mg,Fe),_,[(OH,F)2 CsJ, Oh-Pm3m (001) (110) [IIO] [OOI] 5,30 4,57 --13,8 51 Sch I 2654 . AISi,OrO]. (110). [Ii01 [IIO] 5,30 6,46 21,9 51 Sch I 2655 K(Al,Mg,Fe),-,[(OH,F)z Hg Jz, Coccinit (010) [IO01 m11 5,30 4,97 -6,2 54 Lis; 52 Neu 3;

. AlSi,O,,] 46 Dei 2656 KbUMg, Fe),-d(OHJ% NaCl, Halit (001) (111) [IPO] [I IO] .I-5,90 15,96 0,4 65Sel;II Sch I 2657 . AlSi,O,,] (001) (111) [loo] [IIZ] lo,60 IO,37 -2,2 5ONeu I

*YE. -I 2658

2659 2660

2661

2662 2663 2664 2665

2666

2667 2668 2669 2670 2671 2672

2673 2674

2675

2676 2677

2678

Wirt I Gast

K(Al,Mg, F&s[(OH,F)a . AlSi,O,,,], Glimmer (Fortsetzung)

K(.M Mg, Fe),-,[(OW%, . AlSi,O,,]

K(Al,Mg,Fe),-,[(OH.F), . AlSi,O,,-,]

K(Al,Mg, Fe),-,[(OH,F), - AISi,O,,,]

K(A1, Mg, Fe),d(OH,F), - AISi,O,,,]

K(A1, Mg, Fe),-,[(OH,Fh . AlSi,O,,,]

K(Al,Mg.Fe),-,[(OH,F), - AISi,Ol,]

K(Al,Mg,Fe),-,[(OH,F), - AlSi,O,,,]

K(Al,Mg,Fe),-,[(OH,F), - AISi,O,,]

W-41, Mg. Fe),-JWLF), - AlSi,O,,-,]

K(Al,Mg.Fe),-,[(OH,F), . A&,0,,-,]

K(ALMg, JWAW-W, . AlSi,O,,]

NaCI, Halit

KBr, Oi-Fm3m

K J, Oi-Fm3m

K,PtCl,, Oi-Fm3m

KJ, Oz-Fm3m

LiF, Oi-Fm3m

a-Ag J, Miersit

NaBr, Og-Fm3m

NaJ, O%-Fm3m

NH,Br, O{-Fm3m

NH&l, Salmiak

NH, J, Oi-Fm3m

Wit-t. Gast Wirt

(001) (111) [OIO]

(001) (111) [OIO] (001) (111) [loo]

(001) (111) [loo]

(001) (111) [IO01 (001) (110) [010-j (001) (110) [OIO] (001) (111) [OIO]

(001) (Ill) [OIO]

(001) (111) [loo] (001) (III) [loo] (001) (001) [loo] (001) (Ill) [loo] (001) (11 I) [OIO] (001) (iii) [loo]

(001) (111) [OIO] (001) (111) [loo]

(001) (Ill) [loo]

(001) (111) [OIO] (001) (111) [loo]

(001) (111) [0101

Gast Wirt Gast

[ll~l 9,20 10937 12,7

lifrzl 9,20 8.16 -1133 [I iO] 10.20 9.42 - 7,6

II1 w IO.20 9,98 -2.2

iIll [II01 ;;y

[I iO]

[I TO] [ilO]

II1001 [I TO] [I 1 Z] [i io]

9,20 9.96 8,3 9920 IO,37 1297 9.20 lo,27 11,6 9.20 9,96 %3

4,60 5.70 23,9 51 Sch I

10,60 9.18 -13,4 10.60 9.18 -13,4 lo,60 6949 --3&S 15990 16,90 6,3 IS,40 l&30 -0,s

5,30 4959 --13,4

LmflX [i io]

[I io]

[I 1 Z] [i io]

9.20 5.30

-0,3 -7,7

5,30 -12,s

9,20 5.30

9,17 4,89

4.64

8,23 5916

-10,s -2,6

[I13 9,20 9,27 0.8

Perioden [Al Ab- ___- f-L..- - T 1L J&IL.


65 Sel; 54 Lis: 50 Neu I; 46 Dei

08 Wul 54 Lis: 51 Jan: 51 Sch I; 45 Wes; 35 Roy: 30 Spa; 28 Roy: 08 Bar: 08 Wul; 1836 Fra 54 Lis; 52 Hoi; 51 Jan; 51 Sch I; 45 Wes; 41 Neu; 28 Roy; I I Kre; 08 Bar; 08 Wul 50 hTeu 1 58 Fer 58 Fer 50 Neu I; 30 Spa

52 Pas 2 52Pas2 52Pas2 54 Lis; 51 Sch I 54 Lis 54 Lis; 51 Sch 1; 49 Mer:45 Wes; 30 Spa; 28 Roy 54 Lis; 45 Wes 49 Mer; 30 Spa: 28 Roy 54 Lis; 49 Mer; 30 Spa; 28 Roy 54 Lis; 49 Mer 66 Dun; 54 Lis; 52 Hol; 51 Jan; 51 Sch 1, 50 Roy 2; 36 Sei: 28 Roy 54 Lis; 30 Spa

XT- I Phases 1 _ -Planes 1 Directions 1 Periods [A] 1 lM;“G+ I

2679 Weal, W2-,[(OH,F), 2680 . Al&O,,] Glimmer 2681 Wk, Al, F42-3iWW), 2682 . AlSi,O,,,]

2683 K(Mg,AL Fe)2-3[(~H,F), 2684 - AlSi,O,,)

2685

2686

2687.

2688

2689

2690 2691 2692 2693 2694

2695 2696 2697 2698

2699

Substrate Deposit

Wk Al, Fe),-,WH,F), . AlSi,O,,]

J@%,Al, W+,WW), . AlSi,O,]

KWg, Al, Fe)2-d(0H,F), . AlSi,O,,]

W%, Al, W,-d(OH, J% . AlSi,O,,]

K(Mg, AL Fe),-, [(OH, FJz . Al&O,,]

PbBr,, kubisch

RbBr, Oi--Fm3m

RbCl, Ot--Fm3m

Rb J. Oi--Fm3m

KCl, Sylvin

KC10 4, Dig - Pbnm

NaBrO,, T4- P213

NaClO,, T4-P213

Sub- De- Sub- De- Sub- De- LvlLJL’c strate posit strate posit strate posit %

I

(001) (111) [1001 [I TO] lo,60 i2,40 17,0 (001) (010) [OIO] Wll 9X' 9s 234 (001) (Ill) [OIO] [I 121 920 8243 -8,4 (001) (Ill) [1001 [I TO] 10,60 9,94 -6,2

(001) (Ill) [OIO] [I 1 Z] 920 .8,27 -IO,1 (001) (111) [loo] [I IO] lo,60 9,32 -12,l

(001) (Ill) [OIO] [IIZ] 920 8999 -2,3

(001) (Ill) [loo] [I TO] lo,60 IO,40 -I,9

(001) (Ill) [OIO]

(001) (Ill) [loo]

(001) (111) [OIO]

(001) (001) [loo] (001) (001) [OIO]

(010) (112) [!W (010) (011) [loo] (001) (001) [loo]

(001) (001) [I301 y;; (001) [1zPl

(001) imo1 (001) (0001) [OIO]

(001) (0001) [OIO]

[IIZ] 920 7,72 -16,;

[I IO]’ IO,20 8,W -12,7

im11 9,20 890 -3,3

[I101 IO,20 &go -12,7 [I TO] 9,20 690 -3,3 [I I21 15,90 15,37 -3,3 [211] 15990 ‘15,37 -393 [OlOl IO,20 8,85 -13,2

ro101 9337 8,85 -5,5 D101 9937 05 -5,s r1001 9,20 7,24 --21,3 [lOOI 920 696 -2,6

r1001 '9,20 8,92 -3,o

Ref.

50 Roy 2 54 Roy; 35 Roy 54 Lis 54 Lis; 49 Mer; 30 .?$a; 28 Roy 54 Lis 54 Lis; 49 Mer; 30 Spa; 28 Roy 54 Lis; 51 Ful; 45 Wes; 28 Roy 54 Lis; 52 Hoi; 51 Fd; 51 Sch I; 49 Mer; ,45 Wes; 30 Spa; 28 Roy 63 Ca$; 54 Lis; 51 Jan; 51 Sch I; 47 Dei 2; 46 Dei; 35 Roy; 30 Spa; 08 Bar; 08 Wul 63 Cap; 54 Lis; 51 Jan; 51 Sch I; 49 Dei; 47 Dei 2; 46 Dei; 35 Roy; 28 Roy 63 Cap; 49 Dei; 46 Dei; 35 Roy; 28 Roy 49 Dei; 48 Roy I, 2 4G Dei 30 Spa 20 Spa 54 Roy; 49 Mer; 32 Roy I 32 Roy I 32 Roy I 32 Roy I 30 Spa

Nr.

2700

2701 2702 2703 2704 2705 2706 2707

270s 2709 2710

2711 2712 2713

2714

271.5 2716 2717 271s

2719 2720 2721 2722 2723

2724

2725 2726 2727 2728

Wi*

Phasen

K(Mg, Al, Fe),-,[(OH, F), .hlSi,O,,], Glimmer

K(Mg,Al, Fe),-,C(OKF), ,AlSi,O,,]

I-W%, Al,W,-d(OH,% - ?\lSi,O,,]

K(Mg, Al, Fe),-,[(OH, J% - -4lSi,O,,]

K(Mg, Al, FeL,[(OH, Fh .AlSi,O,,]

K(Mg,Al,Fe),-,[(OH,F)? - hlSi,O,,]

K(Rfg, Al, Fe),-,[(OH, I% ~AlSi,O,,]

K(Rlg,Al,Fe),_,[(OH,F), ~AlSi,O,,,]

K(W, .4l,JW,-,[(OH, FL - RISi,O,,]

K(Mg, Al, Fc)+,[(OH, F)? ~AlSi,O,,]

K(Mg, Al, Fe),+[(OH, F)? - AlSi,O,,]

Gast

NH Cl0 4 41 D.it-Pbnm

As,O,, Arsenolith

H,O, Eis-I

a-Fe,O,, Haematit

FeTiO,, Ilmenit

Fe,O,, Magnetit

TiO,, Rutil

Sb20s, Senarmonit

a-FeOOH, Goethit

p-CdS, Greenockit

MgSO, .7 H,O, Epsomit

Wirt

(001)

(00’) (001) (001) (001)

[oo::; (001)

(001) (010) (001)

(001) (001) (001)

(001)

(001) (001) (001) (001)

I::: ; (001) (001) (001)

(001)

(001) (001) (001) (001)

Gast Wi* Gast Wirt Gast

(001)

;:;: ; (00’) (111)

I:::; (0001)

(0001) (IIZO) (0001)

(0001) (0001) (0001)

(III)

;:::;

;:ii;

[:E; (III) (III) (100)

(0001)

(100) (010) (010) (010)

[~OOI

fig; WOI [5101 [f301 [2 io] [1001

PO1 rfw WOI

[OIOI 5.30 5.80

P101 5862 5,so 392 [0101 5362 5,so 3.2 [1001 9.20 9,22 082 [I’ZI 13,67 13.57 -0,7 rf 211 14.05 13,58 -3.3 PI 11 14,04 13,ss -3,3 [IO.01 SD30 4.50 -15.1

[IO.01 4,60 4.50 -2,2 [ii.01 15.90 IS,64 -1.6 [II .O] 9.20 10,os 9.6

[I101

;;:i;

P101

[II .O] [II -01 [II .O]

[I To]

IO,62 10,os -5.1 9,37 10,os 7,6 5,30 5.0s -4,2

9820 5.91 -3,2

;: ::3 [IO01 P101

[i To] 5,60 5.94 6,i [i io] 5,31 5.94 il,9 [I io] 5,30 5.94 12.1 L-0011 9820 s,ss -3,s

[I 001 l-5~01 [I 301 [2io] r1001

5,30 5,92 11,7 14.03 13967 -2,6 14,05 13,67 -2.7 14,04 13,67 -2,6 IS,90 IS,20 -4,4

[fool

iI1 201 r3101 [I 501 [I 201

5,30 4,14 -2i,9

21,oo 20,SS -2,0 32,00 27844 -14,3 46,00 45.02 4,4 2f,OO 20,SS -2,o

Richtungen Perioden [A] Ab- weichung

%

984

Lit.

54 Roy: 49 Mev: 32 Roy 1 32 Roy 1 32 Roy 1 32 Roy I 50 Neu I: 33 Hoc 50 i\Teu 7; 33 Hoc 50 1Veu I; 33 Hoc 61 Kle I; 59 Bry; 58 Wei; 56 Jaf 1 56 Jaf I 59 Kle f 50 Vul; 50 Ric: 41 Neu; 30 Spa: 03 Mue: 02 Wal 50 vu1 50 vu1 50 Vul; 41 h’eu; 30 Spa: 03 Mue 50 Vul; 50 Ric; 41 ,Veu: 30 Spa: 28 Roy; 03 Mue 50 vu1 50 Vul; 02 Wal 50 vu1 50 Vul; 41 hreu; 30 Spa: 28 Roy; 03 Mue: 02 Wal 02 Wal 50 Neu I; 33 Hoc 50 Neu 1: 33 Hoc 50 Neu 1: 33 Hoc 50 vu1

67 Ma{ 2

54 Roy: 32 Roy 2 32 Roy 2 32 Roy 2 32 Roy 2

No.

2729 2730 2731 2732 2733 2734 2735

2736

2737 2738 2739

2740

2741 2742 2743

2744

2745 2746

2747 2748 2749

2750

2751 2752 2753 2754

2755

T Phases Planes

Substrate

K(Mg,Al, Fe)2-3WH,F)2 . AlSi,O,,], Glimmer (Fortsetzung)

K(Mg,Al,Fe),-,[(OH,F), . AlSi,O,,]

K(Mg, Al, Fe)2-J(OH,F)2 . AlSi,O,,]

K(Mg,Al, Fe),-,[(OH,F), . AlSi,O,,]

W% Al, W2-3W-LF)2 . AlSi,O,,,]

K(W,Al, Fe),-,WW), . AlSi,O,,]

KU% Al, Fe),-,[:(OH,F), - AlSi,O,,,]

WQ, Al, FeL[(OH,F), . AlSi,O,,]

KWIIg, Al, Fe),-,[(OH,F), . AlSi,O,,]

K(Mg, Al, Fe),-,[(OH,F), . AlSi,O,,,]

W&z, AL Fe),-,[(OH,F), . AlSi,O,,,]

WMg, Al, Fe),-,[(OH,F), -AlSi,O,,]

W% Al, F42-3UOH,F), . AlSi,O,,,]

Deposit

MgSb,. 7 H,O, Epsomit

Zn[SOJ .7 H,O, Goslarit

MnSO, e 7H,O, Mallardit

Ni[SO,J -7 H,O, Morenosit

Na,SO,, C&--P3

,3-CdSe, Cadmoselit

GeTe, kubisch

KNO,, K-Salpeter (Nitrokalit)


CaCO,, Calcit

K,Cd(CN),, O{-Fd3m

K,Hg(CN),, Oi-FdSm

K,Zn(CN),, Og-Fd3m

Sub- De- Sub- De- strate posi strate posit

[E; PO’) PO’)

g::; (00’)

(00’)

;:z:{ (00’)

(001)

COOI) :ool) :ool)

:ool)

:ool) ;ool)

;ow ;ow ,001)

1001)

[OIO) 001) ‘010) ;ool)

1010)

(0’0) (0’0) (‘00) (‘00) (‘00)

;1’::;

(‘00)

1:::; (0001

(0001

(“1)

;i:;

PO’)

i:::; i

(111) (111) :0001

(“1)

iy::; 1 LO”) illI)

:oll)

r3 m [I501 [0101 [I201 [3101 iI’501 [I201

c1m

[3101 [I501 [1001

WlOl

WOI [1001 [1001

[0101

[1001 [1001

DOI [1001 [lOOI

[IdO]

[1001 [IO01 [1001 !I 001

:I001

[dOI]

WI [OW COOlI [OOII Kw [OOII

row

WI roo11 [lO.O]-

[I1 .O]

[I TO] [I IO] [1001

WOI

[I TO] [I IO]

[ZII] [IIO] [II .O]

[IIZ]

[OTI] [IIZ] [Oll] [I 1 Z]

[Oil]

-r Directions T Periods [.A] Sub- De-

strate posit Misfit

% T Ref.

32,OO 27,44 -14,3 32 Roy 2 46,00 48,02 4,4 32 Roy 2 27,60 27,52 -0,3 49 Mer

6,38 6,84 7,2 54 Roy: 32 Roy 2 6,12 6,84 II,% 32 Roy 2 6,61 6,84 3,5 32 Roy 2 9,58 IO,80 12,7 49 Mer ,,

4,79

4,60 5,79 5,30

5,ll 6,7

5,11 II,1 5,ll --11,7 5,44 2,6

54 Roy; 49 Mer; 32 Roy 2 32 Roy 2 32 Roy 2 54 Roy; 36 Roy

4,52 -4,9

9,20 15,90

5,14

4,30

8,28 16,56

5942

-IO,0 42 5,4

9,20 9,17 -0,3

10,20 IO,63 42 lo,60 IO,34 --2,5

9,20 8,68 -5,7 lo,60 IO,34 --2,5 lo,60 9,96 -6,o

IO,20

IO,20 IO,20 IO,20 10,20

IO,20

lo,16 -0,4

IO,10 -I,0 IO,44 2,4

8,lO -20,6 IO,26 66

8,90 --12,7

GG Brw; 69 Ben; 5GSem 70 Mik I 69 Cho 4 49 Hoc; 49 Mer 30 Spa; 08 Bar; 03 Mue 49 Hoc: 49 Mer; 30 Spa; 08 Bar; 03 Mue 28 Roy 54 Roy; 45 Wes: 30 S$a; 08 Bar: 02 Wal; 1836 Fra 45 Wes; 03 Mue 45 Wes 50 Vul; 41 Neu: 30 S$a; 28 Roy 49 Mer; 30 Spa; 28 Roy 28 Roy 30 Spa; 28 Roy 28 Roy 49 Mer; 30 Spa; 28 Roy 28 Rqy

Phasen Ebenen Richtungen Pcrioclen [A] Ab- Sr.

Wirt Gast WiX-t I

Gast weichung

Wirt Gast Wirt Lit.

Gast %

2756 K(Mg,hl, Fe),-,[(OH,F), (Ca,Na,Mg,Al,Fe),[(Si,Al),O,J, (001) (100) [IOO] [OOI] 10.60 IO,42 --r,7 41 Neu; 30 Spa 2757 . AlSi,O,,], Glimmer Augit (001) (100) [OIO] [OOI] 9.20 IO,42 13,3 41 Neu 275s K(Mg, Al, FGdOH,F), (%i~~4,WHh~ Fi-%%1~ (001) (001) [loo1 [1001 5.30 520 -I,9 30 Spa; 03 Mue;

-AlSi,O,,] 02 Wal 2759 KWg, Al, FeLdWW, Mg,[A1,Si,018], Corclierit (001) (100) [OIO] [OOI] 920 9,35 I,6 30Spa

- AlSi,O,,,] 2760 K(Mg. Al, W2-sWH,F), Na(Mg,Li,Fe),.AI,[(OH), (001) (1120) [IIO] [OO.l] IO,62 IO,70 0,s 50 Vul; 41 Neu;

. AISi,OIo] . (BO,), . Si,O,& Turmalin 30 Spa; 03 Mue; 02 WaZ

2761 (001) (1120) [I301 [OO.l] IO,58 IO,70 I,1 50 Vul; 41 Neu; 30 Spa; 03 Mue; 02 Wal

2762 . (001) (1120) [loo] [OO.l] IO,60 lo,70 0,9 50 Vul; 41 Neu; 30 Spa; 03 Mue: 02 WaZ

2763 (001) (1120) [OIO] [OO.l] 9,20 IO,70 1693 50 Vul: 41 Neu; 30 Spa: 03 Mue; 02 Wal

2764 (001) (IOiO) [IIO] [OO.l] IO,62 IO,70 0,s 50 Vul; 30 Spa: 2765 . (001) (ioio) [oio] [oo.l] 920 IO,70 16,3 50 Vul; 30 Spa 2766 (001) (IOiO) [IOO] [oo.l] IO,60 IO,70 0,9 50 Vul; 30 Spa 2767 (001) (0001) [OIO] [IO.01 9.20 lo,61 IS,3 50 Vul; 30 Spa:

03 Mue 2765 (001) (0001) [loo] [lO.O] IO,60 lo,61 o,1 50 Vul: 30 Spa;

03 Mue 2769 KWg, Al, Wd(OH,F), KMnO,, Diz- Pbnm (001) (001) [loo] [OIO] IO,20 9,09 -IO,9 54 Roy: 49 Mer;

. AlSi,O,,] 32 Roy I 2770 (001) (001) l-1301 [OIOI 9,37 9809 -3,o 32 Roy I 2771

g:; I:::; [1301 ro101 9.37 9,09 -3,o 32 Roy 1

2772 [OIO] [loo] 9,20 7,40 -1996 32 Roy I 2773 (Ca,NaMMg,FesAl), (Mg,Fe),[(OH),.Si,O,,l. (100) (100) [OOI] [OOI] 5.33 525 -0,9 03 Mue 2774 - [W&F),- W, Alh,O~J, Anthophyllit (100) (100) [OIO] [OIO] IS,01 l&OS 0,4 03 Mue

Hornblende (Amphibol) 2775 (Ca, Na),(Mg, Fe, Al), (Ca,Na, Mg,Fe,Al),[(Si,Al),O,], (100) (100) [OOI] [OOI] 5833 5,z -1,s 30 Spa: 03 Mue

. [(OH, I%- (%4&J Augit 2776 (Ca,Na),(Mg,Fe,Al), K(Mg, Fea+h[(OH, Fh (100) (001) [OOI] [loo] IO,26 10,lS -0,s 50 VI.41 2777 - [(OH, F)z- (SL AW,J . AlSi,O,,,], Biotit (110) (001) [OOI] [loo] IO,26 10,lS -0,s 50 vu1 277s (010) (001) [OOI] [loo] lo,26 10,lS -0,s 50 Vul; 03 Mue 2779 (Ca, W,Wg, Fe, Al), (Mg, Fe),[Si,O,], Bronzit (110) (100) [OOI] [OOI] 5,33 520 -2,4 03 Mue

- [(OH. Fh - Pi, W&l



2780 (Ca, Na),(Mg, Fe, Al), (Mg,Fe),[(OH),Si,O,,l, Cum- (100) (100) [OOI] [OOI] 5933 5,33 0 62 Ask . [(OH, F) 2 - (St Al) &I mingtonit Hornblende (Amphibol)

2781 (Ca, Na) 2 (Mg, Fe, Al) 5 .(Mg,Cr),[(OH),.(Si,Al),O,,l, (110) (001) im11 r1001 5,33 5,34 02 50 vu1 .[(OH,F),.(Si,Al),O,,l Kammererit

2782 (Ca, NaMMg, Fe, 4 Ca,Al[(OH),.AlSi,O,,], Prehnit (110) (001) Pw t-1 001 5,33 5,30 -0,6 50 vu1 [W-K F) 2 - (SW e.%l

2783 (Ca, W,(Mg,Fe, Al), Na,(Mg, Cal (Fe, 4,TW, (100) (100) [OIO] [OOI] IS,01 17,86 -0,s 50 vu1 WK F) 2 - (SW &I . (Si,O,),], Rhiinit

2784 (Ca, NaMMg, Fe, Al), (Mg,Fe),[(OH),.Si,O,,l, (100) (001) [OOI] [IO01 5,33 5930 -0,6 50 vu1 2785 IPJA Fh - WW&l Serpentin (110) (001) [OOI] [loo] 5,33 5,30 -0,6 50 Vd 2786 K(Fe,W,M4J(OH), (K,Na),. (Fe,Mn),. (TiZr), (001) (001) [loo] [OIO] lo,60 IO,82 %I 50 Vul; 30 .@a;

. AISi,O,,], Lepidomelan . [S&,(0. OH),,], Astrophyllit 03 Mue; 02 Wal 2787 K(%,Fe,Mn),C(0H,F), KBr, Oi-Fm3m (001) (111) [loo] [IlO] 5,32 4,65 -12,6 08 Bar

l AlSi,O,,] , Meroxen 2788 Wfg, Fe,M4d,(OH, % K J, Or!,-Fm3m (Oh) (111) [loo] [I IO] 5,32 499 -6,2 08 Bar

. AlSi,O,,,] 2789 KWg, Fe,Mn),WH,F), KCl, Sylvin (001) (111) [loo] [ITO] 5,32 4,45 -l6,4 08 Bar

. AlSi,O,,,] 2790 (Mg,Fe,Al),[(OH)*(Al,Si), (Ca,Na),(Mg,Al,Fe),[(OH,F), (100) (100) [OOII [OOII 5928 5,33 69 50 vu1

. SieOnn] , Orthoamphibol . (Si, Al),O,,], Klinoamphibol 2791 Mg,,,,Fe,,,,Al,,,,C(OH), NH, J, Ok-Fm3m (001) (111) [loo] [II01 5,33 5,13 -3,g 67 Mor 2

l A1,,,,Si,,,,01,1*4H,0. Vermiculit

2792 KLiFee+Al[ (F, OH) B NH,J, Oi-Fm3m (001) (lil) [loo] [I TO] 5127 5,13 -2,7 67 Mor 2 - AlSi,O,,,], Zinnwaldit

2.12 Borverbindungen - Boron compounds .

2793 /3-Mg,[CI-B,O,,], Boracit KAl(SO,),. 12H,0, Alaun (001) (001) [loo] [loo] 12,lO 12,16 0,5 08 Bar

2794 CaSn(BO,),, Nordenskiiildin FeCO,, Siderit (001) (001) [loo] [loo] 6,00 5,82 -3,o 50 vu1

2795 CaSn(BO,), SnO,, Zinnstein (Cassiterit) (0001) (001) [II .O] [OOI] 4385 4,75 -2,l 50 vu1

2796 Ca,CCl~(OH),-W,l, Ca,[Cl(OH), . B,O,], Para- (001) (001) [loo] [loo] 6,31 6,31 0 50 vu1 Hilgardit hilgardit

2.13 Chrom- und Molybd&verbindungen - Compounds of chromium and molybdenum

2797 I

K,CrO,, Tarapacait Rb,SO,, D,1:-Pnam 2798 K,CrQ, Rb,CrO,, Dig-Pnam

Phasen Ebenen Richtungen Nr.

Perioden [A] Ab-

Wirt Cast Wirt Gast Wirt Gast I

weichung Lit. Wirt Gast %

2799 K,CrO,, Tarapacait K,SO,, Rrcanit (001) (001) [IO01 [I 001 5,92 5.73 -3,2 08 Bar

2800 K,CrO, Cs SO D!{-Pnam 2 4, _ (001) (001) [loo] [loo] 5992 6,24 5,4 08 Bav

2501 K,CrO, (NH,),SO,, Mascagnit (001) (001) [I 001 [1001 .5,92 5998 I,0 08 Bar

2502 K,CrO, KMnO,, D:t - Pbnm (010) (100) [loo] [OIO] 5.93 5873 -3,4 33 Bun

2803 (110) (110) [OOI] [OOI] 7.63 7,39 -3,1 33 Bun 2504 Rb,CrO,, Dit-Pnam Cs,CrO,, D:t-Pnam (001) (001) [1001 [IW 6829 6,23 -I,0 08 Bar 2so5 Rb,CrO, Rb SO D!{-Pnzm ‘ (001) (001) iI [I 001. 6,29 5,97 -51 08 Bar

2so6 Rb,CrO, K,&O:: Tarapacait (001) (001) [loo] [IOO] 6,29 5,93 -5.7 08 Bar

2807 Rb,CrO, (NH,),SO,, Mascagnit (001) (001) [IOO] [IOO] 6,29 5,9s -499 08 Bar

2508 Rb,CrO, Cs,SO,, D!: - Pnam (001) (001) [IOO] [loo] 6,29 6,24 -0,8 08 Bar

2809 Cs CrO,, D!i-Pnam Rb,SO,, D2{- Pnam (001) (001) [IOO] [IOO] 8,36 7,8I -6,6 08 Bar

2SlO Cs:CrO, - Rb,CrO,, Dfi-Pnam (001) (001) [IOO] [IOO] 8336 7,95 -4,s 08 Bar

251 I Cs,CrO, Cs,SO,, D:iiPnarn (001) (001). [loo] [loo] 5.36 $22 -I,7 08 Bar

2512 I&[Cr,O,], Lopezit KMnO D:z - Pbnm (001) (100) [loo] [OOI] 7,50 7.39 -195~ 33 Bun 2513 SrMoO,, C&-14,/a Ge, Oh’LFd3rn (100) (100) [OOI] [OOI] 538 5,66 52 64 Sch I

2514 PbMoO,, Wulfenit KJO,. CL--I+ (001) (001) [IOO] [IOO] 5.42 5,75 61 50 vu1 2515 (100) (100) [OOI] [OOI] 50 Vul

2.14 Sauerstoffverbindung des Mangans - Oxygen compound of manganese

2516

I

KMnO,, D!g-Pbnm

I

K,CrO,, Tarapacait 2517 2SIS

3 Epitaxien organischer Gastkristalle auf anorganischen Wirtkristallen -. Epitaxies of organic deposit crystals on inorganic substrate c.rystals

Phases Planes Directions Periods [A] No. Sub- Misfit

Substrate De- Sub- De- Sub- De- Ref.

Deposit strate posit strate posit strate posit %

3.1 Elemente - Elements

1 Cu, kubisch flachenzentriert C,HCI,O, Pentachlorphenol (001) (001) [1001 [OIOI 3,61 3,84 6,4 44 Neu 2 2 1;;;; y; y;; w101 512 4,97 -2,9 50 Neu I 3 cu C,,H,O,, Alizarin (1, %Di- ww 7,71 7,50 -2,7 50 Neu I 4 hydroxy-anthrachinon) (001) (010) [loo] [OOI] 3,61 3,75 3,9 50 Neu I 5 (001) (010) [OIO] [loo] 21,66 21,00 -3,0 50 Neu I 6 Ag, kubisch fkichen- C,H,O,, Bernsteinsaure- (001) (100) [loo] [OOI] 8,16 8,12 --095 45 Neu

zentriert anhydrid 7 & C,Br,O,, Bromanil (Tetra- (001) (001) [1001 [1001 8,16 8,60 . 5,4 50 Neu I; 45 Neu;

bromchinon) 44 Neu 2 8 y;; p;; y;; [OIOI 12,24 12,44 1x6 50 Neu I; 45 Neu 9 & C&1,0,, Chloranil (2,3,5,6- [I 001 16,32 $7,04 4,4 50 Neu I

10 Tetrachlor-p-benzochinon) (001) (001) [0101 WOI 12,24 II,56 -5,6 50 Neu I 11 Ag C,HBr,O, Pentabromphenol (100) (001) [loo] [010] 4,08 4,04 -I,0 50Neu 1;44Neu2 12 -% C,H,Cl,N, Pentachloramino- (100) (001) [too] [OIO] 4,08 3,84 -55,9 50 Neu 1; 44 Neu 2 13 benzol (100) (001) [OIO] [loo] 8,16 8,OO -2,0 44 Neu 2 14 Ag C,,H,O,, Alizarin (1, %Di- (111) (010) [Ii01 [OOI] 8,66 7,50 --13,4 52 Neu 3 15 hydroxy-anthrachinon) (001) (010) [loo] [OOI] 4,08 3,75 -8,l 50 Neu 1 16 Ag C,,H,O,, 1,4-Dihydroxy- (111) (100) [ITO] [OOI] *I,52 II,31 -I,% 50 Neu I 17 anthrachinon (001) 1;;;; [IIO] [OOI]‘ II,52 II,31 -I,8 50 Neu I 18 Ag C18H3602, Stearinsaure (111) [I TO] wo11 577 5,55 -3,s 60 Mat 19 Mg, hexagonal dichteste C,H,MgO,, Magnesium- (0001) (010) [12.0] [OOI] 9,60 920 -4,2 68 Geb 2; 65 Geb.

Kugelpackung Humboldtin (Magnesium- oxalat-dihydrat)

20 Zn, hexagonal dichteste C,H,ZnO,, Zink-Humboldtin (0001) (010) [12.0] [OOI] 9,34 9,05 -3,t 66 Neu; 65 Geb Kugelpackung (Zink-oxalat-dihydrat)

21 Al, kubisch flachen- C,H,FeO,, Humboldtin (001) (010) II1 001 r1001 j&15 12,06 -097 68 Geb 2 zentriert (Eisen(II)-oxalat-dihydrat)

22 C, Graphit C,H,N,O,, Dimethylglyoxim (0001) (100) [12*0] [OIO] 6,51 6,30 -3,2 54 Mon. 6 (Diacetyldioxim)

23 c C,,H,,O, D-Campher (0001) (OOOi) [lT.O] [lO.O] 7,38 7,14 -3,3 60 Kb 2; 58 Kle 3 24 As, D,5,-Rgm C,,H,,O, D-Campher (0001) (0001) [IO.01 [lO.O] 7,54 7,14 -5,3 58 Kle 3

I Ebenen I Richtungen Perioden [Al I Wirl Gast t 1 T 1

Wi* Gast Wi* Gast

(010)

(010) (010)

(010) (010)

[IO.01

[IO.01 [IO01

W~OI [1001

roo11

roo11 [OO~I

[IO01 [IO21

4,30 3,96

4.54 3,96 s,91 9,09

II,20 12,06 14,00 IS,49 t

Nr. Phasen Ab-

weichung %

Lit. Gast

L

Sb, Di,-R3m Ci4H,0z, Anthrachinon

26 27

Bi, Din-Rjm Mn, T$-IqSrn

28 29

Fe, kubisch raumzentriert

30 31 32 33

34

35

LiF, Og-FmSm CH Js, Jodoform

LiF LiF LiF LiF

36 37 3s 39 40 41

LiF

LiF

LiF LiF

42 LiF

43 44 45 46

LiF CaF,, Fluorit

CaF,

47 43

49

CaF, CaF,

CaF,,

C,,H,O,, Anthrachinon C,H,MnO,, Mangan-

Humboldtin (Mangan- oxalat-dihydrat)

C,H,FeO,, Humboldtin (Eisen(II)-oxalat-dihydrat)

-799

--12,8 2.0

50 Neu I; 47 Wil I; 43 Wil2 50 Neu I 68 Geb 2; 65 Geb

7,7 66 Neu; 65 Geb 10,6 66 Neu; 65 Geb

[IO.01 5,70 6,82 19,6 63 Kle 3 [01-O] 5,70 6,S2 19,6 63 Kle 3 [I io] 4.03 4,Ol -0,S 50 Neu I

i30~1 2.85 2153 -II,2 67 Wil [00.1-J 570 5162 --1,4 54 Roy: 51 Roy 2

row 4903 3,70 --8,2** 70 Neu

4903 3,95 -2,0 5IRoy2 20.15 19,70 -2.2 51 Roy 2

4903 3875 -6,9 52 Neu 3 20,15 21,oo 42 52 Neu 3

4903 4,28 6,2** 55 Wil2 5970 4,99 -12,5** 55 Wil2

ro101

[Et; PO1 Nadel- achse [OOII Kw

5,70 4,95 -13,2**

2.85 2353 -11,2** 7.70 629 -1893 6,68 6,29 -5,s

55 wit? 2

55 Wil2 52 Mon f 54 Mon 3 49 Mer; 45 Neu

3,S6 3*95 2,3 54 Roy: 53 Roy 3 3,S6 3,75 -2.8 50 Neu I

[IO01 7870 7872 0,3** 43 Neu 3

3.2 Halogenide - Halogenides

3.2.1 Fluoride - Fluorides

CH,N,O, Harnstoff (C,H,),, Polyathylen C,H,02, a-Hydrochinon C1,H,N,O,, 1, s-Din&o-

naphthalin C,,H,O,, Anthrachinon

C,,H,O,, Alizarin (I, %Di- hydroxy-anthrachinon)

C,,H,,, n-Octadecan C,,H,,, n-Tetraeikosan

(n-Tetracosan) C,,H,B, +Octaeikosan

(n-Octacosan) CnH2n+B, Paraffin C4H8N20a. Dimethylglyoxim

(Diacetyldioxim) C,H,Br,NO, 5,7-Dibrom-S-hy-

droxychinolin (Bromoxin) Ci,H,O,, Anthrachinon Cr,H,O,, Alizarin (I, %Di-

hydroxy-anthrachinon) C,,H,,NO,, I-Methylamino-

anthrachinon

(0001) (toil) (110) (110) (roio) (010)

[I101 [I101 [I 001 [I101 [I 001 [.i 001

[0101 [I 001 [I 001 [1001 [I 001 LfiOl

r1101

[I101 [I io] [I TZ] [I io]

[ioi] [I io]

[I io]

Phases Planes Directions Periods [in] No. Sub- De- Sub- De- Sub- De- Misfit Ref.

Substrate Deposit strate posit &rate posit strate posit %

3.2.2 Chloride - Chlorides NaCl, Halit (CH,O),. p-Polyoxymethylen (001) (0001) [IIO] [lO.O] 3,98 4,43 II,3 67 Wil

:7 NaCl CH,N,O, Harnstoff (111) (111) [ITO] [IIO] 7,96 8,02 03 50 Neu 1; 49 Mer; 37 Sei 1; 33 Bun

52 (001) (110) [IIO] [ITO] 7,96 s,o2 03 50 Neu 1; 37Sei 1; 33 Bun

53 (001) (110) [IlO] [OOI] 3998 4,73 IS,8 50 Neu 1 NaCl CH,N,S, Thiohamstoff (001) (010) [IIO] [loo] IS92 16,56 4,0 49 Mer; 44 NezG I

:: (001) (010) [IIO] [OOl] 7,96 8,54 44 Mer; 44 Neu I 56 NaCl (&He),, Polyathylen (001) (110) [IIO] [OOl] 7,96 7,60 -I:;** 67 Wil; 63 Wil;

5-8 Fis; 57 Wil2 57 NaCl (CsH3N),, Polyacrylnitril (001) (001) [IIO] [loo] II,94 II,60 -2,8** 67 Wil; 63 Wil;

GO wit? 1 58 (001) (001) [loo] [loo] II,28 11,60 2,8** GO Wil I 59 NaCl (Cd%),, Pobpropylen (001) (110) [loo] [OOI] 5164 6,50 15,2** Ii7 Wil 60 NaCl C,H,O,, Bernsteinsaure- (001) (010) iI [1001 7,96 6,93 -1299 49 Mer; 48 Neu I;

anhydrid 45 Neu 61 NaCl C,H,O,, a-Bemsteinsaure (001) (001) [l-00] [loo] 5,64 5,72 I,4 51 Roy 2; 49 Mer

62 NaCl C,H,O,, p-Bemsteinsaure (001) (100) [IIO] [OOI] 7,96 7,61 -4,4 43 Wil4 63 NaCl C,H,O,N,, Dimethylglyoxim (001) (101) [IIO] [OIO] II,94 12,60 5,5 54 Mon 3 64 (Diacetyldioxim) (001) (001) [910] [OIO] 12878 12,60 -I,4 54 Mon 3 65 . (001) (001) [loo] [OIO] 5,64 6,30 11,7 52 Mon I 66 NaCl (CSH8C1,0),, Penton (Poly-3,3- (001) (010) [IIO] [OOl] 3,98 4,82 21,1** 67 Wil 67 bis(chlormethyl)cyclooxa- (001) (010) [IlO] [loo] 7,96 8,16 2,5** 67 Wil

butan) 68 NaCl (C,H,Cl,O),, Poly-3,3-bis- (001) (010) [IlO] [loo] 7,96 8,16 2,5** 67 Wil

(chlormethyl)cyclooxabutan (Penton)

69 NaCl C,Br,O,, Bromanil (Tetra- (001) (001) [IIO] [loo] 7,96 8,62 8,3 50 Neu I; 45 Neu; bromchinon) 44Neu2.

70 (001) (001) [I TO] [OIO] II,94 12,44 42 50 Neu 1; 45 Neu; 44 Neu 2

71 NaCl C&O,, Chloranil (2,3,5,6- (001) (001) [IIO] [loo] 7,96 8>77 IO,2 44 Neu 2 72 Tetrachlor+benzochinon) (001) (001) [IIO] [OlO] II,92 II,56 -3,0 44 Neu 2 73 NaCl C&l,, Benzen (Hexachlor- (001) (001) [IIO] [loo]- 7,96 8,10 13 50 Neu I; 43 Neu 4 74 benzol) (001) (001) [IIO] [OIO] 3,98 3,84 -3,5 50 Neu I; 43 Neti 4 75 NaCl C,HBr,O, Pentabromphenol (001) (001) [IIO] [loo] 7,96 8,50 68 50 Neu I: 49 Mer;

43 Wil3 76 (001) (001) [IIO] [OIO] 3,98 4,05 I,8 50 Neu I

77 7S 79

SO 51 s2

83 84 85 86 87 ss s9 90 91 92

95 96 97 9s

99 NaCl

100 NaCl

101 102 103 104 105

106 NaCI C,H,NO,, $-Aminosalicyls%ure

Phasen I Ebencn 1 Richtungen 1 Perioden [A] I

Wi*

N&I, Halit

NaCl

NaCl

NaCl NaCl

NaCl

NaCl C,H,NO, p-Aminophenol

NaCl NaCl NaCl

~ NaCl

NaCl C,H,O,, Benzoesiure NaCl C,H,O,, Salicylsiure NaCl C,H,NO,, p-Aminobenzoeslure

Gast Wirt Cast Wirt Gast Wi* Gast

C,HCI,O, n-Pentachlorphenol

C,HCI,O, /I-Pentachlorphenol

C,H,N,O,, Pikrinsiure (1 -Hyclroxy-x,4,6-trinitrobenzol)

C,H,N,O,, I, 3,5-Trinitrophenol C,H,O,, a-Hyclrochinon

C,H,NO, o-Aminophenol

C,H,N,, p-Phenylendiamin C,H,N,O,S, Sulfanilsiureamicl C,HCl,O,, Pentachlor-

benzoes&.n-e C,H,Cl,, Pentachlor-

methylbenzol C,H,CINO,, 4-Chlor-3-nitro-

benzoesiure C,H,N04, m-NitrobenzoesKure

(001)

(001) (001)

(001) (001) (001)

(001) (001) (001) (001)

;:::;

;i::;

(001) (001)

(001)

(001)

(001) (001)

(001)

(001)

(001)

(001)

(001)

g:;

(001)

(001)

(001)

(001) (001) (001)

(001) (010) (010)

(010) (loio)

KP’ (010) (010) (Oi 0)

;E; (100)

(100)

(100)

(100) (001) (001) (001)

(001)

(100)

g:; i (100) (010) (001)

(100)

[I101 [I101 [I101

[I101 [I 101 [I101

[II01 [I101 [I io] [I 001 [I 001 [I101 [I101 [1201 [I201 [I101

rr1101

[IW

[0101 [1001 [1001 [1W

[iio]

El101

[I101 [I101 [1101 [I101 [I101

[I101

[1001 WOI [Of01

[IO01 [1001 [0011

[OOII [OO.l] [Ol .O] [1001 [0011 [1001

;::A;

;:::;

[0101

row

ro101 ro101 [I 001 [I 001

ro101

ro101

[IO01 [0~01 PO11 r1001 P101

lmo1

II,94 12,lO 193 389s 4897 24,9 3.95 3.55 -3,3

7.96 s,oo 095 19,SO 19.36 -2,2** 19,SO IS,50 -6,6**

50 Neu 1 50 Net.4 1 51 Wil; 50 Neu 1; 49 Mer: 43 Wil3 50 Neu I: 51 Wil 50 Neu 1 50 Neu 1

7,96 9.25 16,2** 11894 II,24 - 5,9 23988 22,06 -7,6

564 7,S5 39,2 564 7,25 28,s 7,96 7,s5 -1.4 7996 7925 -S,9 7.59 7355 394 7,59 7325 -4,s

15992 IS,75 -1.1

70 iVeu

7,96 S,l9 2.9

5,64 5,25 -6,9

54 Roy; 51 Roy 2 54 Roy; 51 Roy 2 54 Mon 3 54 Mon 3 54 Mon 3 54 Mon 3 54Mon3 54 Mon 3 54 Mon 3: 52 Mon 2; 45 Neu 54 Mon 3; 52Mon 2; 45 hTeu 54 Mon 3; 49 Mer; 45 hreu

16,92 16.3s -3,2 54 Mon 3. 45 hTeu , 5.64 6.00 6,4** 49 Mer; 45 iVeu

5,64 5.76 2,1** 62 Sei; 49 Erl

5,64 5.24 -7,1* 49 Mer; 43 Wil4

3.9s

II,94

II,94 II,94 11,94 11,94

3.9s

3.9s

3.90

11.40

-2,o* 50 Neu 1: 43 1Veu 4

-4,s

--12,s** -io,s**

-s,9**

-3,5** -3,o**

-2,s

49 Mer: 45 Neu

IO,41 lo,69 1o,ss

II,52

3,S6

3,S7

45 iVeu 45 lieu 49 E7l

49 Evl Ii2 Sei; 49 Mer; 49 Ed: 43 Wil4 49 Erl

weicnung %

Llr..

Phases Planes Directions Periods [A] NO. Sub- De- Sub- De- Sub- De- Misfit Ref.

Substrate Deposit strate posit strate posit strate .posit %

107 NaCl, Halit (CsHs)n, Polystyrol [;I:{ (1010) [IlO] [Ol.O] 23,88 21,90 --8,3** 67 Wil

108 NaCl C,H,Br,NO, 5,7-Dibrom-g- [If01 Nadel- 49 Mer: 45 Neti hydroxychinolin (Bromoxin) achse

109 (001) [I IO] Nadel- 45Neu achse

110 NaCl Cr,H,N,O,, 1,5-Dinitro- (001) [I101 Nadel- 5ONeu I naphthalin achse

111 NaCl C,,H,N,O,, 1,8-Dinitro- (001) (100) [IIO] [OIO] 7,96 8,06 I,3 7ONeu naphthalin

112 NaCl C,,H,O,, /?-Naphthochinon (001) (001) [1001 WOI 1692 16,20 -4,3** 49 Mer; 45 Neu 113 (001) (001) [I101 w101 7,96 8,10 j,g** 45 Neu 114 (001) (001) [I101 [loo] 3,98 3,84 -3,5** 45Neu

115 NaCl C,,H,O, /I-Naphthol g:; [:::j ;:;i; ::Ei;

7,96 8,09 I,6 45Neu;43Neu3 116 II,94 II,84 -0,8 45 Neu; 43 Neu 3

117 Na& C,,H,O,, I, 4-Dihydroxy- g:;

(010) [I101 wo11 3,98 4,80 20,6 52 Neu 3; 45 Neu

118 naphthalin (110) CllOl [I IO] 19,90 18,10 -9,O 48 Neu 1

119 NaCl C,,H,O,, I, 5-Dihydroxy- (001) (010) 11101 [0011 3,98 4,80 20,6* 45 Neu naphthalin

120 NaCl C,,H,O,, 2,7-Dihydroxy- (001) (010) [IIO] [OOI] 3,98 4,80 20,6* 45Neu naphthalin

121 NaCl (C,,H,O,),, Polyathylen- (001) (100) [IIO] [OIO] 7,96 ,820 3,0 67 Wil terephthalat

122 NaCl C,,H,Cl,O,, 3,5-3’, 5’-Tetra- (001) [I101 Nadel- 43 wi!? 4 chlordiphenochinon achse

123 NaCl C,,H,ClO,, 1 -Chlor-9, 1 O- (001) (100) [IIO] [OIO] 3,98 3,99 0,3 5ONeu I anthrachinon 43 Wil4;

124 NaCl C,,H,ClO,, 2-Chlor-I, 4- (001) (010) [loo] [OOI] 5,64 5,80 2,g** 50Neu 1 anthrachinon

125 NaCl C,,H,O,, Anthrachinon (001) (010) [I101 [OOI] 3,98 3,95 -0,8 64 Woo: 52 Wil; 50 Neu I; 49 Mer; 43Neu5;43 Wil I; 43 wi14

126 (001) (010) [II01 [loo] 19990 19,70 -I,0 64 Woo: 51 Roy I; 51 Roy 2; 50 Neu I; 49 Mer; 43 Neu 5

127 NaCl Cr,H,O,, 2 -Hydroxyanthra- (001) (010) [IIO] [OOI] 7,96 7,90 -0,8* 50Nez~ 1;43Neu5, chinon 43 wi14

128 NaCl C,,H,O,, %Hydroxyanthra- (001) (010) [I101 PO11 7,96 7,90 -0,8* 50Neu 1;43Neu5 chinon


Wit-t Gast Wirt weichung

Gast Lit.

Wirt Gast Wirt Gast %

129 NaCl, Halit &H,O,, 1, S-Dihydroxy- (001) (001) [loo] [loo] 564 5.76 z1 50 Neu I; 43 Neu 5 anthrachinon

130 NaCl C,,H,O,, Alizarin (1, %Di- (001) (010) [IIO] [loo] 19,90 21,oo 5.5 52 Neu 3: 50 Neu I, hydroxy-anthrachinon) 43 Neu 5

131 (001) (010) [IIO] [OOI] 3,98 3275 --5,8 52 Neu 3: 50 Neu I, 43 Wil4

132 NaCl Cr,H,O,, Purpurin (I, 2,4-Tri- (001) (010) [IIO] [loo] 7,96 8,OO 65 50 Neu I; 45 Neu

133 NaCl hydroxy-9, I O-anthrachinon)

C,,H,,N,O,, 1,4-Diamino- (001) (010) [IIO] [OOI] 7,96 7,90 -0,8* 50 Neu I anthrachinon

134 NaCl C,,Hr,N,O,, 1, 8-Diamino- (001) (010) [IIO] [loo] 19,90 19,70 - 1 ,O** 50 Neu I: 43 Neu 5 anthrachinon

135 (001) (010) [IIO] [OOI] 3,98 3,98 0** 50 Neu I; 43 Neu 5 136 NaCl C,,H,,O, I-Hydroxyanthracen (001) (001) [IIO] [IOO] 7,96 8,60 8,O’ 45 Neu

137 NaCl C,,H,,O. 2-Hydroxyanthracen (001) (001) [I IO] [IOO] 7,96 8,60 8,0* 45 Neu

138 NaCl C,,H,,O, Anthranol (100) (010) [oil] [loo] IS,92 16,Oo 0,5* 50 Neu I; 43 Neu 5 139 (too) (010) [oii] ml1 7,96 7.90 -0,8* 50 Neu I; 43 Neu 5 140 NaCl C,,H,,O,, Benzil (001) (0001) [310] [IO-O] 8,9l 8,15 -825 63 KZe 3 141 (001) (0004) [IIO] [IO-O] 7,96 8,15 2,4 63 Kle 3 142 NaCl C,,Hr,O,, Anthrarobm (3,4,9- (001) (010) [IIO] mm 3,98 3,95 -0,8** 50Nezc 1

Trihydroxyanthracen) 143 NaCl C,,H,,O,, 2-Methyl-anthra- (001) (010) [IIO] [OOI] 7996 7990 -0,8* 43 Wil4

chinon 144 NaCl C,,H,,O,. I-Methoxy-anthra- (001) (010) [110] [OOI] 7,96 7,90 -o,s* 50 Neu I

chinon 145 NaCl &,H,,NO,, I-Methylamino- (001) (010) [IIO] [OOI] 7,96 7.90 -0,8* 50 Neu I

anthrachinon 146 NaCl C,,H,,, Hexaathylbenzol (001) (100) [IIO] [OOI] Il.94 12.20 2,2** 50 Neu f,: 46 Wil

147 NaCl C,,H,,, n-Octadecan (001) (100) [IIO] [OIO] 7.96 7.56 - 5,0** 55 wiz 2

148 NaCl C,,H,,, n-Tetraeikosan (001) (100) [loo] [OIO] 5,64 4,99 -11,5** 55 Wil2 (n-Tetracosan)

149 NaCl C&H,*, a-Octaeikosan (001) (100) [loo] [OIO] 5.64 4.95 --.12,2** 55 Wil2 (n-Octacosan)

150 NaCl WL+,, Paraffin (001) (010) [IIO] [OOI] 7,96 7,59 -4,6*+ 55 Wil2 151 KCI, Sylvin CH,N,O, Hamstoff (001) (110) [IIO] [OOI] 4.41 4,73 7,3 50 Neu ? 152 (001) (120) [ii01 [iio] 8,83 8,02 -9,2 5ONeu f 153 (ill) (111) [iio] [iio] 8,83 8,02 -982 49 Mer 154 KC1 (CzH,,),, Polyathylen (001) (110) [IIO] [OOI] 8,82 7860 -13,s 67 WC!



% Ref.


156 KCI, Sylvin (C3H3N)D, Polyacrylnitril (001) (001) [IIO] [loo] 13,24 11,60 - 12,4** 67 Wil; 63 Wil; 60 Wil I

156 (00-l) (001) [loo] [loo] 12,48 II,60 -7,1** 60 Wil 1 157 KC1 C,H,O,. Bemsteinsaure- (001) (001) [IIO] [loo] 8,83 6.96 -21,2 45 Neu

anhydrid 158 KC1 C,H,N,O,, Dimethylglyoxim (001) (001) [loo] [OIO] 6,24 6,30 I,0 54 Mon 3; 52 Mon 1

(Diacetyldioxim) 159 KC1 C,HBr,O, Pentabromphenol (001) (001) [IlO] [OIO] , 4,41 ‘4,05 -8,2 50 Neu I; 43 Wil3 160 (001) (001) [IIO] [loo] 8,83 8,50 -397 50 Neu I; 43 Wil3 161 KC1 C,HCl,O, Pentachlorphenol (001) (001) [I101 [OIO] 4,41 4,97 12,7 59 Wil I; 50 Neu I;

. 43 Wil3 162 KC1 C,HCl,O, B-Pentachlorphenol (001) (001) [I IO] [OIO] 4,41 3,84 -12,9 59 Wil I; 50 Neu I;

43 wi13 163 KC1 C,H,NO, o-Aminophenol (001) (010) [loo] [loo] 6,24 7,85 164

25,8 54 Mon. 3 (001) (010) [loo] [OOl] 6,24 7,25 16,2 54 Mon. 3

165 (001) (010) [IIO] [loo] 8,83 7,85 -II,1 54 Man 3 166 (001) (010) [IIO] [OOI] 8,83 7,25 --17,9 54 Mon 3 167 (001) (010) [I201 [loo] 6,99 7,85 12,3 54 Mon 3 168. (001) (010) [I201 [OOI] 6399 7,25 3,7 54 Mon 3 169 KC1 C,H,NO, $-Aminophenol (001) (100) [IIO] [001] 4,41 5,25 f9,O 54 Mon 3; 52 Mon 2;

45 Neu 170 (001) (100) [IIO] [OIO] 8,83 8x19 -7,2 54 Mon 3; 52 Mon. I;

45 Neu 171 KC1 C,H,N,, p-Phenylendiamin (001) (100) [loo] [OIO] 6,24 6,00 -3,8 49 Mer; 45 Neu 172 KC1 C,H,N,O,S, /?-Sulfanilamid (001) (010) [IIO] [OOI] 8,83 9,02 2,2** 62 Sei 173 KC1 (C,H,,NO),, Nylon-6 (001) (010) [I301 [loo] 9,86 9,56 -3,o 67 Wil; 63 Wil 174 (001) (010) [250] [OOI] 16,80 17,20 2,4 67 Wil; 63 Wil 175 (001) (010) [310] [loo] 9,86 9,56 67 Wil 176 KC1

-3,0 C,H,NO,, +Aminobenzoe- (001) (001) [IIO] [OlO] 4,41 3,86 -12,5** 62 Sei; 49 Mer;

saure 45 Neu 177 KC1 (C,H,,NO),, Nylon-8 (001) (010) [loo] [OOI] 20,20 20,70 2,5 67 Wil 178 KC1 C,H,Br,NO, 5,7-Dibrom- (001) [I101 Nadel- 45 Neu

8-Hydroxychinolin (Brom- achse oxin)

,

179 KC1 C,,H,, Naphthalin (001) (001) [loo] [OIO] 6,24 6,00 -3,s 54 Mon. 3.’ 53 Mow 3 180 (001) (001) [loo] [loo] 25816 X69 --I,9 54 Mon 3; 53 Mon 3 181 KC1 C,,H,O,, 1,4-Dihydroxy- (001) (010) [IZO] [OOI] 13,96 14,41 3,2 45 Neu;

naphthalin 182 (001) (010) [210] [OOl] 13,96 14,41 3,2 .45 Neu

106 3 A

norganisch-organische Epitaxien

Gebhardt

/Neuhaus

Phases No.

Planes Directions Periods [A] Sub- De- Sub- De- Misfit


% Ref.


3.2.3 Bromide - Bromides

211 NaBr, 0: - Fm3m (&Ha),, Polyathylen I;;;; (110) P1_01 KJo11 212

4,22 KBr, O{--Fm3m

5,06 19,9 67 Wil CH,N,O, Harnstoff (110) [I101 WOll

213 4,62 4,73 2,4 50 Neu I

(001) (110) [IlO] [ITO] 214

924 8,02 --13,2 50 Neu f (111) (111) [ITO] [ITO]

215 KBr 924. 8,02 --13,2 49 Mer

CH,N,S, Thioharnstoff (111) (010) [liO] [OOI] 9,26 8956 - 7,6 49 Mer 216 KBr (&H,O),, Polyathylenoxid (001) (001) [I101 [OIO] IS,52 19,50 5,3 67 Wil 217 KBr C,HBr,O, Pentabromphenol (001) (001) [1101 [OlOl 4,63 4,05 -12,s 43 Wil3 218 KBr C,HCl,O, Pentachlorphenol (001) (001) [IIO] [dlO] 4h3 493 65 43 Wil3 219 KBr C,H,NO, o-Aminophenol (001) (010) Cl001 r1001 658 220

7985 19,3 54 Mon. 3 (001) (010) [I 001 [OOII 658

221 7125 IO,2 54 Mon 3

y;; I;;;; [I101 [1001 222

9,31 7985 -IS,7 54 Mon 3 [I101 [OOII

223 9,31 7,25 -22,l 54 Mon 3

(001) (010) [I201 [1001 224

7935 7,85 68 (001)

54 Mon 3 (010)

KBr iI DO11

225 7935 7,25 -I,4

(C,H,,NO),, Nylon-6 54 Mon 3

(001) (001) [OIO] [OIO] 19,65 17,24 -l&3 63 Wil 226 KBr G2H&,0,),, B-Nylon-6 6 (001) (100) [OIO] [OOI] I%65 17,20 -12,s 67 WiZ 227 KBr . C1,H,O,, Anthrachinon (100) (010) [Oil] [1001 228

I%,52 19,70 64 43 Neu 5 (100) (010)

KBr [Ofi] row

229 4,63 3,95 --14,7 43 Neu 5

C,,H,O,, Alizarin (1, %Di- (001) (010) [II01 [OOI] 4,63 3,75 --19,0 hydroxy-anthrachinon)

52 Neu 3; 50 Neu I,

230 43 Neu 5

(001) (010) [I101 [loo] IS,52 21,00 13,4 5.2 Neu 3; 50 Neu I,

231 KBr 43 Neu 5

Cr,H,,O,, Anthrarobin (100) (010) [OTT] [OOI] 4,63 3995 -14,7** ‘43 Neu 5 (3,4,9-Trihydroxyanthracen)

232 RbBr, Oi--Fm3m C,HBr,O, Pentabromphenol (OO?) (001) [I101 [OlOl 4,85 4,04 --167 43 W‘il3 233 RbBr C,HCI,O, Pentachlorphenol (001) (001) [I101 [OIO] 4,85 4997 2,s 43 Wil3 234 NH,Br, 0; - Pm3m CH,N,O, Harnstoff (001) (001) [loo] [I101 8,12 8,02 -I,2 50 Neu I; 49 Mw;

33 Bun

3.2.4 Jodide - Jodides

235 NaJ, OE--Fm3m (C2H&, PolyHthylen (001) (110)’ [IIO] [OOI] 236 KJ, Og---Fmjm

9,18 IO,12 IO,2 67 Wil CH,N,O, Harnstoff y;i y; [lm row

237 499 4,73 -5>2 50 Neu I

[I101 [I101 238 Kj

9,99 8,02 -1977 50 Neu I (C,H,),, PolyZthylen (001) (110) [I101 [OW 499 5,06 I,4 67 Wil

Phasen E bcnen Nr.

Richtungen Perioden [A] Ab-

Wilt Gast Wirt weichung Lit.

Gast Wirt Gast Wirt Gast %

239 K J, Ol-Fm3m C,,H,NO, o-Aminophenol (001) (010) [ZOO] [loo] 7,05 7.85 11,3 54 Man 3; 53 Mon 3 240

;:i:; (010) [loo] [OOI] 7305 7925 238 54 Mon 3

241 (010) [ilO] [loo] 9.97 7,85 -21,3 54 Mon 3 242 (001) (010) [IIO] [OOI] 9.97 7.25 -27.3 54 Mon 3 243

;:::j’ loo;:; [120-J [100] 15.76 15.70 -0,4 54 Mon. 3

244 [I201 [0011 15976 14.50 -8,O 54 Mon 3 245 KJ C,,H,,N,, Urotropin (Hexa- (001) (110) [OIO] [Ii01 21,15 19,86 -6,1 54 Mon 3; 53 Mon 3

methylentetramin) 246 (001) (110) [ZOO] [001-J 7,06 7,02 -0,6 54 Mon 3; 53 Mon 3 247 KJ C,,H,O,, Anthrachinon (001) (010) [IIO] [loo] 19.96 19,70 -183 43 Neu 5: 43 Wil6 248 (001) (010) [IIO] [OOI] 4.99 3.95 -20,8 43 Neu 5: 43 Wil6 249 KJ C,,H,O,, Alizarin (I, 2-Di- (001) (010) [ilO] [OOI] 4,99 3875 -24,8 52 Neu 3: 50 Neu I

hydroxy-anthrachinon) 250 (001) (010) [IIO] [loo] 19,96 21 ,oo 52 Neu 3; 50 Neu 1 251 KJ C,,H,,O,, Anthrarobin (001) (010) [I lo] [OOl] 4,99 3895 -,g* 43 Neu 5

(3.4,9-Trihydroxyanthracen) 252 NH, J, Ot-Fm3m C,H,NO, o-Aminophenol (001) (010) [iOO] r1oa 7,26 7,85 881 54 Mon 3 253 (001) (010) [loo] [OOI] 7926 7.25 -0,l 54 Mon 3 254 (001) (010) [IIO] [loo] IO,20 7,85 -2380 54 Mon 3 255 (001) (010) [IIO] WO~I IO,20 7,25 -28.9 54 Mon 3 256 (001) (OiO) [IZO] [loo] 16,26 15,70 -3.4 54 Mon 3 257 (001) (010) [I201 [OOI] 16,26 14,50 -IO,8 54 Mon 3 258 CdJ,, D&-Pjm C,HCI,O, Pentachlorphenol (0001) (001) [10.0-J [OIO] 4.24 3,85 -982 53 Wil 259 CdJ, C,,H,O,, Anthrachinon (0001) (010) [IO-O] [OOI] 4,24 3995 -6,s 53 WiL

3.3 Oxide und Hydroxide - Oxides and hydroxides

3.3.1 Oxide - Oxides

260 Al,O,, /Y-Korund, CI,,HsOa, Anthrachinon (0001) (010) [10.0] [OOI] 3,67 3,95 786 54 Wil I D$, -P6/mmc

261 SiO,, Quarz (Linksquarz) WWO),, a-Polyglycin (0001) (100) [21 SO] [001-j 8,50 9,30 984 68 Sei 262 (0001) (100) [IO.01 [OOI] 9,s1 9,30 - 52 68 Sei 263 (IOiO) (100) [OO. I] [OOI] lO,S2 9,30 - f4,O 68 Sei 264 (loio) (loo) [01-o] [oaf] 9.81 9330 -5,2 68 Sei 265 (ioii) (loo) p1.23 [OOI] 9814 9330 1,8 68 Sei 266 (foil) (too) [Ol .O] [OOI] 9,81 9,30 -5,2 68 Sei

I Phases NT,. 1 _ -Plane” 1 -Directions 1 Periods [A] 1 imom-

IY”. I Substrate Substrate

267 26% 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287

288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304

SiO,, Quarz (Linksquarz) SiO,, Quarz (Linksquarz)

SiO,, Quarz SiO,, Quarz

SiO, SiO, SiO, SiO,

SiO,, Quarz (Linksquarz) SiO,, Quarz (Linksquarz)

SiO,, Quarz SiO,, Quarz

SiO, SiO,

Deposit

(C,H,NO),, /%Polyglycin

C,HSNO,, LU-Glycin (Glykokoll, Aminoessigsaure)

(CBH3N),, Polyacryhritril (C,H,NO),, Poly-L-Alanin

C,H,NO,, Alanin (Amino-, propionsaure)

C,H,NO,, L-Hydroxyprolin

C,HCl,O, Pentachlorphenol


(0001) (110) (0001) (110) (1010) (110) (1010) (110) (1011) (110) (1011) (110) (1010) (IZO) (1010) (TZO) (IOfO) (031) (1011) (Oji) (1011) (IZO) (1011) (010) (IOII) (IZO) (0001) (IZO) (0001) (OIO) (0001) (IZO) (1010) (001) (0001) (IOIO) (1010) (IOfO) (1011) (IO-IO) (1011) (100)

(iOl0) (012) (1010) (012) (IOiO) (110) (IOiO) (110) (IOIO) (001) (1010) (010) (lO.Tl) (012) (1011) (012) (01 Tl) (012) (0001) (001) (1010) (001) (IOiO) (001) (1010) (001) (1011) (001) (1011) (001) (IOII) (001) (0001) (001)

[21-O]

De- posit

425 4,89 15,l 68 Sei 4391 4,89 -0,4 68 Sei 5,41 ’ 4,89 -9,6 68 Sei 4,91 4,89 -0,4 68 Sei 4957 $89 790 68 Sei 4,91 4,89 -0,4 68 Sei 5341 5245 0,7 60 Sei I; 55 Sei

II,65 10,90 -66,4 60 Sei I ,5,41 5,10 -5,7 60 Sei I 4991 5,10 379 60 Sei I 4,91 5945 II,0 60 Sei I 4,91 5,45 II,0 60 Sei I

13.73 15,72 14,5 60 Sei I 4,91 5,45 II,0 60 Sei I 4,91 5,10 3,9 60 Sei I

14,71 15,72 69 60 Sei I IO,82 II,60 7,2 67 Wil

4,25 5,41 2793 68 Sei 5,41 5,41 0 68 Sei

13,73 l&23 18,2 68 Sei 4991 4,21 -1423 55 Sei

13273 13,78 0,4 64 Sei 4,91 5,00 I,8 64 Sei

IO,82 9,70 -IO,4 60 Sei I 9,82 9,70 -I,2 60 Sei I

IO,82 9,70 -IO,4 60 Sei I 14,73 14,20 -3,6 60 Sei I

9,96 IO,00 0,4 60 Sei I .9,96 IO,00 0,4 60 Sei I 4991 5,00 198 60 Sei I 4291 5,00 13 60 Sei I 4,91 4,97 12 65 Mue; 54 Wil I 5,41 4997 -8,1 65 Mue; 54 Wil I

14,56 14,91 2,4 65 Mue; 54 Wil I 4991 4,97 12 65 Mzte

14,56 14,91 2x4 65 Mue 14905 14,91 61 65 Mue

4,91 4,97 12 65 Mue

De- posit

Ref.

Nr.

305

306 307 308 309 310 311

312

313

314

315 316 317 318 319 320

321 322

323 324 325 326 327 328 329 330

331

332

333

Wi*

Phasen

Gast

SiO,, Quarz

SiO, SiO, SiO, SiO,, Quarz (Linksquarz) SiO,, Quarz (Rechtsquarz) SiO,, Quarz SiO,

SiO,

SiO,

SiO,

SiO, SiO,, Quarz (Linksquarz) SiO,, Quarz

SiO, SiO,

SiO,, Quarz (Linksquarz)

C,H,02, Brenzcatcchin (o-Dihydroxybcnzol)

C,H,N,O& /?-Sulfanilamid C,H,Os, Salicylsaure C,H,NO*. $-hminobenzoesiure C,H,N03, P-Aminosalicylsaure C,H,NO,, p-Aminosalicylsiure (CsHr,NO),, Nylon S C,H,,NO,, 3,4-Dihydroxy-

phenylalanin C,H,,NO,, Adrenalin

C,,H,,O, Campher

C,,H,,N,O, . H,O, Phenyl- alanyl-glycin-monohydrat

(C,,H,,N,O,),. Xylon 6,6 C,,H,sN,O,S, Vitamin B 1

C,,H,,O,, . H,O, Lactose- monohydrat

C,,H,O,, Anthrachinon (C,,H,,N,O,),, Nylon 6, IO

C,,H,,CoN1,O,,P, Vitamin B 12

Ebencn

Wirt

(loio)

(ioil) (ioio)

(ioio)

(loil)

(loio)

(0001)

(loio)

(ioio)

(ioio)

(loio) (ioio) (ioio) (1 ioi) (1 ioi) (1010)

(ioio)

(loio)

(roil) (roil) (ioii) (ioio) (ioio) (ioio) (loio) (01 io)

(loio)

(loio)

(ioio)

Gast

(100)

(0001) (loii) (ioii) (0601) (0001) (100)

(010)

(010)

(100) (100) (010) (010) (010) (010)

;:i:;

(310)

(410)

(430)

Richtungen

Wirt

[OO. I]

[Ol .O] [OO. I]

[Ol *O]

pi.21

[Ol.O]

[II .O]

[OO.l]

[OO. I]

[Ol * I]

[Ol .O] [Ol . I] [Ol *I] [IO.01 [ii.11 [OO. I]

[OO.l]

[Ol . I]

[Ol .O] [Ol . I] [Ol .O] [01.4] [Ol * 21 [Ol . I] [02. I] [OO*l]

[OO. I]

[OO.l]

[OO.l]

Gast

row

ro121 [OOII PO11 ro101 PO11 WOI PO11 Nadel- achse

Xadel- achse [IO.01

pg.;;

[lo:o] [lO.O] m11

[OOII WI

[Ej m11 m11 [OOII roo11 roo11 [0011

roo11

[OOII

row

Perioden [A]

Wirt Gast

5,4f

14.73 to.32

4,91

6,S3

24,55 4,26

21,64

14973 7,31

14,62 14,73

7331 1623

16,23

7,31

4891 21,90

4991 22,20 23,74 21990 22336 16,22

16,22

16,22

16,22

548

15837 II,52 4192 7,72

23,60 3852

XL70

14,26 7813

13823 14,26

7.13 16,70

17320

6396

4,90 2l,S9

3,95 22,40 22,40 22,40 22,40 IS,92

IS,92

IS,92

1 St92

Ab- weichung

0’ /o

1,3**

4,3** 6.5 02

13,0**

- 3,9** -10,3**

-4.3

-3.2 -2,j -9.5 -392 --2,s

2,9

6,0**

-4,s**

-0,2 --o,OS

- 19,6** 0,9**

- 5,6** 2,3** 0,2**

-1,s

-1,s

-I,,4

-1,s

Lit.

64 Sei

64 Sei 62 Sei 64 Sei 64 Sei 64 Sei 64 Sei 67 WiZ 64 Sei

M Sei

64Kle I; 63Kle3 63 Kle 3 63 Kle 3 63 Kle 3 63 Kle 3 55 Sei

67 Wil 64 Sei: 151 Sei 64 Sei 64 Sei 54 Wil 1 66 Sei 66 Sei 66 Sei 66 Sei 65 Sei I; 64 Sei 63 Sei; 61 Sei 65 Sei 1; 64 Sei; 63 Sei: 61 Sei 65 Sei I; 64 Sei: 63 Sei; 61 Sei 65 Sei I: 64 Sei; 63 Sei; 61 Sei

I Phases Planes ?GTr. ^. , - 1 -++o_ns 1 Perk+ [-Al 1 Misfit 1 - _ 7. D-AC I”“.

Substrate Deposit SUb- Ue- Sub- Ue- Sub- lJ,e- .l..Cl.


334 SiO,; Quarz (Linksquarz) C,,H&oN,,O,,P, Vitamin B I 2 o (I TO) (I 20) [OO. I] [OOI] 16,22 1592 -1,s (Fortsetzung)

65 Sei 1; G4 Sei; 63 Sei; 151 Sei

335 (IOTO) (510) [OO. I] [OOI] 16,22 IS,92 -1,s G5Sei I; 64Sei; 63 Sei; 61 Sei

336 (1010) (610) [OO. I] [OOI] 16,22 IS,92 -I,8 65 Sei I; 64 Sei; G3 Sei; Gl Sei

337 # (1011) (100) [ZI .2] [012] m49 l&75 -8,s 63 Sei 33% (1011) (010) [Zf.2] [102] a49 I%68 -4,0 G3 Sei 339 (IOTO) (430) [Ol . I] [OOI] l5,70 15892 l,4 65 I Sei 340 (llzo) (100) [OO. I] [OOI] 16,22 IS,92 -I,8 G5 Sei I 341 (1120) (110) [OO. I] [OOI] 16,22 IS,92 -I,8 G5 Sei I 342 (Ii20) (100) [OO. I] [OOI] 16,22 IS,92 -I,% 65 Sei I 343 (iI20) (110) [OO. I] [OOI] 16,22 l5,92 -I,8 65 1 Sei 344 (1011) (OZI) [01-O] [loo] 24,57 25,33 3,l 65 Sei I 345 (1011) (932) [12. I] [lOi] 30,24 29,98 -0,9 65 I Sei 346 30,24 G5 Sei I 347

e (IOIl) (232) [12. T] [IOT] 29,98 -0,9 (IOTI) @If) [il ‘I] [Oll] 30,24 27,47 -92 65 I Sei

348 (1011) (Zii) [il ‘I] [Oll] 30,24 27,47 -9.2 Ii5 I Sei 349 (0111) (21 i) [21 - I] [Ol I] 30,24 27,47 -9.2 65 Sei I 350 (0001) (001) [51 -01 [IO01 24,95 25,33 1,s 65Sei I 351

352

353

M&OH) 2, Brucit

3.3.2 Hydroxid - Hydroxide

C,,H,O,, Anthrachinon

3.4 Chlorat - Chlorate

354 1 KCIO,, C&P&/m 1 C,HCl,O, Pentachlorphenol 1 (100) 1 (001) 1 K’OII 1 [OIOI 1 4>65 1 4,97 1 6,9** 1 49 Mer; 43 Wil3

355 356

3.5 Schwefelverbindungen - Sulfur compounds

3.5.1 Sulfide - Sulfides

a-ZnS,Zinkblende(Sphalerit) CBr,, Tetrabromkohlenstoff (110) [IIO] w101 3,84 3,4l -II,2 49 Wil

or-zns CH,N,S, Thioharnstoff (110) [I101 [OW II,49 II,04 -3,9 54 Roy; 3; 52 Neu 50 Neu I; 49 Mer; 44 Neu 1

-_. - -.-.

Nr.

358

359

360

361

362

363

364 365 366 367

368 369 370 371 372 373 374 375 376 377 378 379 380 381 382

Wi*

Phasen

Gast

a-ZnS, Zinkblende(Sphalcrit: (Fortsetzung)

a-ZnS

a-ZnS

c+ZnS or-ZnS, ar-ZnS

oc-ZnS ar-ZnS a-&S

ci-ZnS

a-ZnS

ci-ZnS

a-ZnS

CH,N,S, Thiohamstoff

C,H,O,. Bemsteinsiure- -ar&ydrid

C,H,N,O,, Dimethylglyoxim (Diacetyldioxim)

C&l,, Hexachlorbenzol C,HBr,O, Pentabromphenol C,H,Cl,N, Pentachlor-amino-

benzol C,H,N,O,, I, 3,5-Trinitrobentol C,H,N,O,, m-Dinitrobenzol C,H,O,, P-Benzochinon


C,H,NO, P-Aminophenol

C,H,,N,, Urotropin (Hexa- methylentetramin)

C,H,CJ, Pentachlor- methylbenzol

Ebenen 1 Richtungen Perioden [A]


(110)

(110)

(110)

(110)

(110)

(110)

(if01

(f10) (110) (110) (110)

(110) (110) (110) (110)

;::z/ (110)

[::z; (110) (IlO),

;::t; (110) (IfO)

[fool [fool 16929 i. 522 -6,6

ITif P~OI 7866 8,S4 fl,S

[I 001 [IO11 542 4,69 -13,s

PW [I 001 16.29 1522 -6.6

[I iO]

[i io]

PI 01 7966 654 11,s

[ow Ii,52 lo,80 -693

[I io] PO~I 3,84 4,48 16,7

row lx431 21.64 21,z5 -I,8 54 Mon 3; 52 Mon 3 [If01 [Of 01 3,84 3984 0 50 Net.4 1; 46 Wil [i io] PO1 3,84 4,04 52 50 Neu 1; 43 Neu 4

[Ii01 lI1001 7,68 8,60 II,9 50Neu 1;43Neu4

mu [OO~I IO,86 9B74 --10,3 [i io] m11 3,84 3,81 -0,8 [I i2] rot 01 6.62 6,79 296 [I it] [IO01 9,43 7,03 -2595 [i io] [IO11 9,42 IO,60 12,s [3541 [1001 15.35 IS,68 z1 m11 DO11 IO,86 12.90 18,8 [I io] [OIOI 7,68 8,19 6,6 [iii] [OIOI 9,41 8319 -13.0 [I i2] [OOll 13,33 12990 -3,2 PW wo11 24,44 25,80 56 [iii] WI 11 14,12 1525 8,O [I io] [I ii] 11,s 12,42 7,s [i ii] [i io] 9843 IO,22 W [4 io] ro101 3.84 3,69 - 3,9*

Ab- weichung

% Lit.

54 Roy: 52 Neu 3: 50 Neu 1: 49 Mev; 44 Neu 1 54 Roy: 52 Neu 3; 50 Neu 1: 44 Neu I; 33 Roy I 54 Roy; 52 Neu 3; 50 Neu 1; 44 Neu I; 33 Roy 1 50 Neu 1: 41 Neu; 36 Sei; 33 Roy 1 50 Neu 1: 41 Neu; 36 Sei: 33 Roy 1 50 Neu 1; 49 Mer; 45 Neu 54 Mon 3

50 Neu I 50 Neu 1 54 Mon 3 54 Mon 3 54 Mon 3; 52 Mon 3 54 &Ion 3; 52 Mon 3 54 Mon 3; 52 Mon 3 54 Mon 3 52 Mon 3 54 Mon 3 54 Mon 3; 52 Mon 3 54 Mon 3 54 Mon 3 54 Mon 3 50 Neu 1; 46 Wil; 45 Neu

Phases Planes Directions Periods [A] No. Sub- De- Sub- De- Sub- De- Misfit


strate posit strate posit &rate posit

383 oc-ZnS, Zinkblende (Sphalerit) C,H,NO,, P-Nitrobenzoesaure (110) (001) [I TO] LQlOl 15,36 15,21 -I,0 50 Neu I; 49 &!ler; 45 Neu

384 oc-ZnS C,H,NO,, Phthalimid (f10) (100) [I TO] wo11 3,84 3,77 -I,8 50 Neu I 385 a-ZnS C,,H,O,, 2,7-Dihydroxy- (110) (010) [I 111 wo11 4,72 4,80 1,7** 50 Neu I; 45 Neu

naphthalm 386 or-ZnS Cr,H,O,, Anthrachinon y; f;;{ y;; WOI 3,84 3,98 3,6** 54 Roy; 53 Roy 3 387 a-ZnS C,,H,O,, Alizarin (1,2-Di-

:::i; 3,84 3,75 -2,3 43 Neu I

388 hydroxy-anthrachinon) (110) ;:i:;

KJOll IO,86 11,25 3,6 50 Neu 1 389 (110) wJ11 [1001 21972 21,00 -393 50 Neu I

390 a-ZnS C,,H,,N,O,, 1,4-Diamino- (110) (010) [Ii01 [OOI] 3,84 3,98 3,6** 52 Neu 3 anthrachinon

391 PbS, Galenit (Bleiglanz) CH,N,S, Thioharnstoff (001) (100) [IIO] [OOI] 12,62 11,04 -1295 50 Neu I; 49 Mer; 44 Neu 1

392 (001) (100) [IIO] [OIO] 8,41 8,54 I,5 50 Neu 1; 49 Mer; 44 Neu I

393 PbS C,H,N,OB, 1,3,$Trinitro- (001) (010) [ilO] [OOI] 8,40 9,74 16,o 50 Neu I benzol

394 PbS C,H,ClNO,, 2-Chlor-5-nitro- (001) (001) [IlO] [OIO] 8,40 lo,26 22,l 50 Neu 1; 49 Mer; benzoesaure 45 Neu

395 (001) (001) [loo] [loo] 5,94 5,86 -I,3 ” 45 Neu 396 PbS C,H,Br,NO, 5,7-Dibrom-8- (001) [1101 Nadel- 49 Mer; 45 Neu

hydroxychinolin (Bromoxin) achse 397 PbS C,H,Bq,NO. Bromoxin (5,7- (001) 11101 Nadel- 50 Neu F

Dibrom-8-hydroxychinolin) achse 398 PbS C,,H,O,, ,&Naphthochinon (001) (001) [IIO] [loo] 4,20 3,84 -8,6 50 Neu I; 49 Mer;

45 Neu 399 (001) (001) [I TO] [OIO] 8,40 8,10 -3,6 50 Neu I; 49 Mer;

45 Neu 400 PbS C,,H,O,, 1 , 5-Dihydroxy-

[E; (010) [I IO]. [OOI] 4,20 4,80 14,3* 45 Neu

401 naphthalin (010) [I101 [OW 4,20 4,80 14,3* 50 Neu I: 45 Neu 402 PbS C,,H,O,, Alizarin (1,2-Di- (001) (010) [IIO] [OOI] 4,20 3,75 --IO,7 50 Neu I; 43 Neu I 403 hydroxy-anthrachinon) (001) (010) LliO] [loo] 20998 21 ,oo 61 50Neu 1;43Neu I 404 As&, Auripigment C,H,,N,, Urotropin (Hexa-

I:: :; (110) [IO21

[E:j 14,26 14,04 -I,5 54 Man 3

405 methylentetramin) (110) [OW 12,72 12,16 -4,4 54 Mon 3 406 Sb,S,, Antimonit CH,N,S, Thiohamstoff (010) (010) WI Km II,52 II,04 -4,2 44 Neu 2 407 (010) (010)

[E:; r1001 7,68 7,66 -0,3 50 Neu I

408 SW, C,H,O,, Bemsteinslure- (010) (010) Pm II,52 IO,80 -6,3 50 Neu I anhydrid

409 SW, C&l,, Hexachlorbenzol (010) (001) [OOI] [OIO] 3,84 3,86 0,5** 50 Neu I; 43 Neu 4 410 Sb,S, C,HCl,O, j3-Pentachlorphenol (010) (001) [001] [OIO] 3,84 3,84 0** 43 wi14

Nr.

411 412

413 414 415 416

417 418

419

420

421

422 423 424

425

426 427 42s

429

430

431

432 433

434 435 436 437 43s 439 440

Phasen

Wirt

Sb,S,, Antimonit Sb,S,

SW% SW,

Sb,S,

SW, SW, Sb,S,

SW,

Sb,S,

SW,

SW,

Sb,S,

Sb,S,

CuPbSbS,, Boumonit MO&, Molybdinit MO’S, MoS,

MoS, MOS,

MoS,

MoS,

MoS,

MOS,

Gast

C,H,N,O,, m-Dinitrobenzol C,H,NO,, p-Nitrophenol C,H,NO, P-Aminophenol C,H,,N,, Urotropin (Hexa-

methylentetramin) C,H,NO,, p-Nitrobenzoesaure C,H,NO,, P-Rminobenzoeslure C,H,N03, $-Aminosalicylsiure C9H,Br,N0, Bromoxin (5,7-

Dibrom-S-hydroxychinolin) C,H,Br,NO, 5,7-Dibrom-S-

hydroxychinolin (Bromoxin) C,,H,O,, /?-Naphthochinon

C,,H,O,, I ,4-Dihydroxy- naphthalin

C,,H,O,. l,$Dihydroxy- naphthalin

C,,H,,N,, Benzidin (Diamino- diphenyl)

C,,H,O,, Alizarm (I ,2-DI- hydroxy-anthrachinon)

C,HCl,O, Pentachlorphenol CBr,. Tetrabromkohlenstoff C,H,OI, Fumarsiure C,H,N20,, Dimethylglyoxim

(Diacetyldioxim) C,H,O,, Benzochinon C,H,O,, Hydrochinon

(p-Dihydroxybenzol) C,H,NO, o-Aminophenol

C,H,,N,. Urotropin (Hexa- methylentetramin)

C,H,O,, Benzoesaure

C,H,O?, p-Hydroxybenz- aldehyd

Wirt

(010) (010) (010) (010)

;:::,’

(010) (010) (010)

(010)

(010)

(010) (010) (010)

(010)

;ooi:; (001) (0001)

(0001)

(0001)

(0001) (0001)

;:::i; (crool) (0001) (0001)

;:::;;

Richtungen

Wirt

roo11 WI WI

[YE; WI WI . WO~I WI

ml1

PO11

m11

[1001

;::;; [IO-O]

[12*0]

[IO-O]

[IO-O] [IO.01

[23. O] [Ol -01

I:=; [12:0] [lO.O] [IO-O]

Gast

roo11 roo11 ro~ol [iii] [I ii] P~OI w101 ro~ol Naclel- achse Nadel- achse [I 001

[I 001 lm11 w011

[0101

[IW

;:Y$ DlOl WI PI01

[0101 [IO-O]

[104 [IOI] [I iZJ [iii] [0011

Perioden [A]

Wirt Gast

3,S4

II,52 7,6S

11852 11,ss II,52

3,84

3,84

3,s4

II,52 3,S4 3,S4

IS,36

22,44 3,S4 S,16

3,16

5,47

6,32

6,32 6,32

S,33 9.45

1641 6,32

10,90 9,4S 6.32

3,Sl

12,34

S.19 12,42 12.42 IO,14

3,S6 3,82

3,84

l2,67 4,so 4,so

IS,02

21 ,oo 3,75 7,70

3,41

500

6,29

6875 5,20

7,s5 IO,69 17820

6,oS 10,ss 10,ss

6 -., $33

Ab- weichung

%

-o,s** 7,111 6,6+*

7,s

-,“,;;*I

0,5** -0,5**

0

10,0** 25,0** 25,0*

-2,2

-6.4 -2.3 -536

7,9 -S,6*

--on5

6,s --17,7

- 5,s 12,s

4,s -3,s -0,2

14,s 0,2**

Lit.

50 Neu 1

50 Neu 1

50 Neu 1

54 Mon 3; 49 Wit 54 Mon 3; 49 Wil 50 Neu 1; 45 Neu

50 Neu 1

50 hreu 1

50 hTeu 1

49 Mer; 45 Neu

50 Neu 1; 49 Mer; 45 iVeu 50 hTeu 1; 45 Nea 50 Neu 1; 45 Xeu 50 Neu 1; 45 hTeu

50 Near 1

50 hleu 1; 43 Neu 1 50 Neu 1; 45 Seu 49 Mer; 43 Wil4 49 Wil

53 Mon 1 53 Mon 1

53 Mon 1 53 Mon 1

54 Mon 3; 53 Mon 1 54 Mon 3; 53 Mon 1 54 Mon 6; 53 Mon 1 54 Mon 6; 53 Mon 1 53 Mon I 53 Mon 1 53 Mon 1

IY”. I Substrate I Deposit

441 MO&, Molybdamt . C,H,NO, Benzamid 442 MoS, C,H,NO,, o-Aminobenzoesslure

443 MoS, C,,H,,O, D-Campher

444 MoS, 445 MoS, 446 447 MoS, 448 MoS, 449 MoS, 450 MO%

451 MoS, 452 Fe!&, Pyrit

453 454 455 456

457

458

459 460 461 462 463 464

465

466 467

468

K,SO,, Arcanit

CaSO,, Anhydrit C,HCl,O, Pentachlorphenol Ca(S0,) l 2H,O, Gips CBr,, Tetrabromkohlenstoff Ca(S0,) .2H,O C,HCl,O, Pentachlorphenol

Ca(S0,) .2H,O CH J3, Jodoform

Ca(S0,) .2H,O

Ca(S0,) .2H,O

Ca(S0,) .2H,O

C,,H,,O,, Chinhydron C,,H,Oz, Anthrachinon

C,,H,O,S,, Thio-Indigo C,,H,,N,O,, Indigo CHO 16 32 2, oc-Palmitinsaure C,,H,,O,, Fluorescein (2(3,6-

Dihydroxyxanthyl)benzoesaure)

GPm+,, Paraffin C,,H,O,, Anthrachinon

JULJ-

strate

(0001) (0001) (0001)

(0001)

;:::i; (0001) (0001) (0001) (0001)

CJuu-

strate

[IO.01

[12.0]

[IO-O]

[IO.01 [12.0] [lO.O] [IO.01

[12.0]

[lO.O]

[13*01

C,,H,,K,N,0,S2, Kristall- Ponceau

C,H,02, Benzochinon

C,H,O,, /I-Hydrochinon

C,H,,Ni, Urotropin (Hexa- methylentetramin)

(0001) (010)

(001) (100)

[12.0]

[I101

3.5.2 Sulfate - Sulfates

I;::; (010) (001) (001) (001)

[;;;;; (1011) (001) (001) (1010)

(110)

(110) (110)

(110)

[0011 [2X’] [2301 [1001 [1001 [IO01

[1001 [IOI] [ow [IO21 imJ11 [1W

[1011

Kw [2031

[3011

LJKZ-

posit

[OlOl [OIOI [IO-O]

[OIOI [0011 [OOI] [OW [0011 II1001 Nadel- achse

wJ11 Kw

w101 [1011 [I 031 r1001 [0101 i3101

[IO.01 [Ol .O] [Ol SO] i3101 P101 [OO. I]

[I !I]

[il I] [I TO]

[I TO]

clu”- u=-

strate I I% posit

9948 IO,90 94

6,32 6,04 -4,4 IO,90 II,85 877 15,80 15,84 0,3 15,80 15,48 -2,0

16,35 15,72 -3,9 9,48 9,68 &I

5,4X 5,06 -7,7 50 Kai

3983 3,98 3,9 54 Wil I

22,40 22,40 0 26,50 26,40 - 0,4 26,50 27,50 3,8 12,44 12,lO -2,7**

11,36 IO,23 -9>9**

5,68 493 -13,2**

5x68 6,82 20,l 6,55 6,82 4,l 629 6,82 64 6,28 6.79 8,1 629 679 7,9 5,68 5,53 -2,6

5,73

6.29 IO,05

IS,54

IO,02 5,7

II,58 62 IO,10 6,5

6,08

6,08 9,93

14,98

61

-3,3 -I,2

-336

53 Mon I

53MonI

GO Kle 2; 59 Kle 1; 58 Kle I; 58 Kle 3 53 Mon I 53 Mon I 53 Mon I 53 Mon I

53Mon I

53 Mon I

53 Man I

5GNeu;SONeu I 42NeuI 42Neul 49 Mer; 43 Wil4

49 Wil

50 Neu I; 49 Mer; 43 wi13 64 Kle I; 63 Kle 3 G4Kle I; 63Kle3 MKle I; G3Kle3 54 Mon 3 54 Mon 3 63 Kle 3: 50 Neu I; 43 Wil3; 28 Roy 54 Mon 3; 50 Neu 1;

I 49 Mev; 49 Wil 53 Roy 2 54 Mon 3; 50 Neu I; 49 Mer; 49 Wil 50 Neu I; 49 Mer; 43 W‘il I

XT- I Phasen I Ebenen 1 Richtungen 1 Perioden [A] 1 Ab- 1 _ ._

469

470

471 472

473

474

475

476 477 478 479 480 481 482

483 484 485 486

487 488 489

490 491 492

493 494 495

496

Wirt

Ca(S0,) - 2H,O, Gips (Ports&rung)

Ca(S0,) -zH,O Ca(S0,) -2H,O Ca(S0,) .2H,O

Ca(S0,) -2H,O

Ca(S0,) -2H,O C;,H,,O, DL-Campher

Ca(S0,) -2H,O C,,H,Or, Anthrachinon

SrSO,, Coelestin

SrSO, SrSO,

BaSO,, Baryt (Schwerspat)

BaSO,

BaSO,

BaSO,

BaSO,

BaSO,

BaSO,

Gast Wi* Gast Wi* Gast Wirt Gast

C,H,,N,, Urotropin (Hexa- mcthylentetramin)

C,H,NOr, p-Aminobenzoesaure C,,H,, Naphthalin C,,Hr,NO, y-tevt.-Isobutyl-

caprolactam C,,H,,O, D-Campher

C,H,02, a-Hydrochinon

C,H,NO, o-Aminophenol C,H,NO, P-Aminophenol

C,H,NOr, DL-Alanin (Amino- propionsaure)


C,H,N,O,, Trinitrobenzol

C,H,O,, Benzochinon

C,H,O,, a-Hydrochinon


C,H,NO, P-Aminophenol

(101)

(010) (010) (010)

(01 0)

(Of 0)

(0001)

(0001)

(0001)

(0001)

;bE:,’ (010)

;::z; (ioio)

row

[1011

[I 001 [lO.O] 5,68 7,14 25,7 [IO11 [IO-O] 9,39 7,14 -24,0 Dw [IO.01 6.29 7.14 13,s [OOfl [0011 12,46 II,94 -4,2** [IO01 [0011 II,36 II,94 5,1** [loi] m11 8.45 7.96 -53 LOI 13 [OO. I] 17,48 16,S6 -3,s

[I 001 L-1001 [OIOI [0101

r4301 PI01 WOI

;:;A; w101

[1001 [0101 [1001

ro101

r.1011 ro101

:z::;

S,38 IO,69 27,6 S,38 s.19 -293 5,37 5.25 -2,2 5.45 LS2 6,8**

w 01 WOI Nadel- achse [0101 [IO01 [OO * I]

18,30 IS.30

-I,6 -I,4

7.14 6.79 -489 14,03 14,06 02

5,45 5,62 391

[JO11 [IO11 [0101

row

8.86 IO,69 20,7 IO,90 IO,69 -I,9

S,S6 Cl9 -7,G

5,44 525 -3.5

weichung %

[iii] 5,73 6,08 6,1 50 Neu 9

WOI mo1 Nadel- achse [lO.O]

II,36 II,58 I,9 6,2S 6,00 -4,5

50 Neu I; 43 Wil4 54 Man 3 49 Wil

5.68 7.13 25,s

[IO.01 6,29 7313 f3,4

[IO-O] 9939 7,13 -24.1

60 Kle 2: 59 KZe I: 58 Kle 3 60 Kle 2; 59 Kle 1; 58 Kle 3 60 Kle 2; 59 Kle 1; 58 Kle 3 60 Kle 2 60 Kle 2 60 Kle 2 54 Roy; 53 Roy 2 54 Roy: 53 Roy 2 54 Roy; 53 Roy 2 50 Neu I; 49 Mev; 28 Roy; 38 Wil 54 Mon 3 54 Mon 3; 52 Mon 2 54 Mon 3; 52 Mon 2 60 Kle I

54 Mon 3; 52 Mon 3 54 Mon 3; 52 Mon 3 49 Neu 1

54 Mon 3 54 Mon 3 50 Neu I; 49 Mer; 38 Wil 54 Mon 3 54 Mon 3 54Mon3; 52Mon3; 49 Mer 54Mon3; 52Mon3; 49 Mer

JJt.

XT- Phases Planes Directions Periods [A] ?.. I- -. I- r.1 I- Misfit p-4

IY”.

497

498

499

500 501 502 503 504

505 506

512 513 514 515

516 517 518 519

520

521 522

Substrate I I >UD-

Strate ue-

posit

HaSO,, Baryt (Schwerspat) (Fortsetzung)

BaSO,

BaSO, BaSO,

BaSO,

BaSO,

NaNO,, Nitronatrit (Natronsalpeter)

NaNO,

NaNO, NaNO,

NaNO, C,H,O,, /?-Hydrochinon

NaNO, C,H,NO, o-Aminophenol

NaNO, C,H,NO, p-Aminophenol

1 NaNO, C,H,N,, +Phenylendiamin

C,H,NO, p-Aminophenol

C,H,Br,NO, 5,7-Dibrom-8- hydroxychinolin (Bromoxin)

C,,H,02, ,%Naphthochinon C,,H,Oz, 1, &Dihydroxy-

naphthalin

C,,H,O,, 1,5-Dihydroxy- naphthalin


(110)

(110)

(001)

(001) (110)

[Kc; (001)

(001) (001)

(100)

I (001) (001)

>UD- strate

3.6 Nitrate - Nitrates

C4H,0,, Bernsteinsaure- anhydrid


C,HCl,O, Pentachlorphenol C,H,O,, a-Hydrochmon

(001)

;::i; (001) (1011)

(100) (100) (100) (1011)

[EC{

(001) (001)

(001)

(100) (001)

(100)

(100) (100) (001) (IOIO)

(IOIO) (1010) (1010)

, (1010) ~

(010) (010) (010) (100)

(100)

(100) (001)

[I101

[IZO]

[1001 [1 TO] [Oi.I]

imu [OW [0111 [Ol.l]

r1101 [I TO] [I TO] [I101

[I TO]

[I IO] [I101

roo11

[OIOI [0101 w101 [OO. I]

[OO - I] [01-O] [OO. I] wq- 11

[1001

;z:; w101

i3011

[0101 WOI

5U D- ue- strate posit

lo,90 11,52 14,28 14,40

G37 9,60 5,45 4,80 5,45 4,80

16,35 15,84 8,%7 7,96

8,16 8,12 -65 49 Mer; 45 Neu

31,42 31,45 61 6A9 6,29 -3,l 507 4,97 -2,0 5,06 5,62 II,1

16,32 16,86 16,32 16,86 16,32 16,86

5,06 5,53

8,lO 7,84 1520 15,68 20,26 22,25

8.10 &I9

3,3 3,3 3,3 9,3

-332 372 9,s I,1

5,07 5,25 3,6

1520 16,38 6,08 6,oO

7,8 --I,3

7,87

% 1 ,ALLzL.

10,2** 45 Neu

45 Neu

49 Mer; 45 Neu

5,7** 49 Mer; 45 Neu 0,F3** 45 Neu 82 45 Neu

-II,9 45 Neu -11,9* 45 Neu

-3,1** 54 Roy, 51 Roy 2 --10,3** 51 Roy 2

54 Man 3 54 Mon 3 49 Mer; 43 Wil3 50 Neu 1; 38 Wil; 33 Roy 1 51 Roy 1; 33 Roy I 51 Roy I; 33 Roy I 49 Mer 50 Neu I; 38 Wil; 33 Roy I; 08 Bar 54 Mon 3 54 MO, 3 54 Mon 3 54Mon3; 52Mon2; 49 Mer 54Mon.3; 52Mon2; 49Mer 45 Neu 49 Mer; 45 Neu

Phasen Ebenen Nr.

Richtungen Periodcn [A] hb-

Wirt Cast Wirt Gast weichung

Wirt Lit.

Gast Wirt Gast %

523 NaNO,, Nitronatrit C,H,CINO,, 2-Chlor-s-nitro- (001) (001) [I To] [olo] 5,07 5,13 1.2 49 Mer: 45 JVeu (Natronsalpetcr) benzocsilure

524 NaNO, C,H,NO,,, nz-Nitrobenzoesaure (001) (001) [I io] [IOO] IO,13 IO.41 2,s 45 Neu

525 NaNO, C,H,NO.,, p-Nitrobenzoesaure (001) (001) [i io] [olo] IS,21 IS,21 0 45 1Veu

526 NaNOs C,H,Br,NO, 5,7-Dibrom-S- (001) [I101 Nadel- 45 Neu hydroxychinolin (Bromoxin) achse

527 NaNO, C,,H,O,, B-Naphthochinon (001) (001) [IIO] [loo] 4.05 3984 -55.2 49 Mer: 45 Neu 528 NaNO, C,,H,O,, I, 4-Dihyclroxy- (001) (010) [IIO] [OOI] 4905 4,so IS,5 45 hTeu 529 naphthalin (001) (010) [I io] PO11 5,07 4.80 -5,3 45 Neu 530 NaNO, C,,H,O,, I, 5-Dihydroxy- (toil) (010) [Ol *I] [OOI] 5806 4,SO -5,1* 48 1Veu I; 45 Neu

naphthalin 531 NaNO, C,,H,,O, p-Hydroxy-diphenyl (001) (100) [llo] [ool] 12,15 II,23 - 7,6 49 Mer 532 NaNO, CIzH,,02, p. p’-Dihydroxy- p; (100) [Ii01 Dlol 5,07 5936 5,7 35 wiz 533 diphenyl (001) [I io] ro101 10,13 lo,72 5,s 49 Mer 534 NaNO, C,,H,O,, Anthrachinon (001) (001) [IIO] [OIO] 405 3.95 -187 54 Roy: 51 Roy I 535 NaNO, C,,H,Od, Alizarin (I, 2-Di- (ioii) (010) [oi-I] [ooi] 5906 7,50 4S.2 536

43 Neu 4; 43 Neu 5 hyclroxy-anthrachinon) (IrZi) (010) [Ii.01 [ooi] 4939 3,75 - 14.6 43 Neu 5

537 NaNO, C,,H,O,, I, 4-Dihydroxy- (loii) (001) [oi-i] [loo] 10,12 IO,40 2,s 43 Neu 5 anthrachinon

535 NaNO, C,,H,O,, I, S-Dihydroxy- (toil) (001) [oi.i] [loo] 5,06 5.76 13,s 43 Neu 5 anthrachinon

539 NaNO, C,,H,,O, 2-Hydroxy-anthracen (Ioil) (001) [io-i] [loo] IO,12 S,60 - 15,0* 43 Neu 5

540 NaNO, C,,H,,O, Anthranol (loii) (010) [To-i] [ooi] 5,06 5,20 2,s 43 Neu 5

541 NaNO, C1,Hr2N,, I, S-Diamino- (toil) (001) [oi-I] [loo] IO,12 S,60 - 15,0* 43 Neu 5 anthracen

542 NaNO, C,,H,,O, S-Hydroxy-pyren (001) [If01 Nadel- 49 Mer

543 achse

Ba(NO,),, Nitrobaryt C,,H,,ClN,S .4H,O, Methylen- (001) (010) [I101 [1001 11,49 9969 -1537 41 Neu blau-tetrahydrat

544 Pb(NO,),, Nitroplumbit C,,H,,ClN,S. 4 H,O, Methylen- (001) (010) [~OOI [OOI] 7,S6 7,07 -IO,1 41 Neu blau-tetrahydrat

3.7 Carbonate - Carbonates

545 MgCO,, Magnesit C,H,O,, a-Hyclrochinon (100) (IOiO) [Oll] [00-l] IO,89 II,24 3,2 49 Mer 546 CaMg(CO,),, Dolomit C,H,O,, a-Hyclrochinon (001) (IOiO) [IIO] [Ol.O] 23,04 22,06 -4,3 51 Roy 1; 50 Neu 1;

49 Mer 547 (001) (IOiO) [IIO] [lO*O] lo,20 22,06 f4,9 51 Roy I; 50 Neu 1;

49 Mcr

Phases Planes Directions Periods [A] NO.

I Sub- De- Sub- De- Misfit


% Ref.

strate posit strate posit &rate posit

548 CaMg(CO,),, Dolomit C,H,O,, a-Hydrochinon (100) (1010) [Oll] [00-l] II,52 II,24 - 2,4 51 Roy I; 5ONeu I; (Fortsetzung) 49 Mer

549 (OOf) (lOTO) [ilO] [00-i] II,52 II,24 -2,4 49 Mer 550 CaMgWJ, C,H,NO, o-Aminophenol (001) (010) [IIO] [loo] 7,68 7,85 22 54 Mon 3 551 (001) (010) [IIO] [OOI] lb,52 14,50 -0,l 54 Mon 3 552 CaMg(COJ 2 C1,H,O,, Anthrachinon y; (010) [I101 iwl 19220 19,90 3,6 54 Roy: 51 Roy I 553 CaCO,, Calcit CH J3, Jodoform (0001) [IIO] [lO.O] 6,06 6,82 12,s G4Kle I; G3Kle3 554 (001) (IOil) [IlO] [Ol.O] 6,06 6,82 *zs 64 KZe I; 63 Kle 3 555 CaCO, C,H,O,, Bernsteinsaure- (1011) (010) [01-O] [OOI] 419% 5,40 8>4 45 Neu

anhydrid 556 CaCO, C,H,N,OZ, Dimethylglyoxim (001) (101) [I 001 [OIOI 6,41 6,30 --1,7 54Mon3 557 (Diacetyldioxim) (001) (101) [7501 PO1 2473 25,20 I,9 54 Mon 3 558 (001) (101) [I301 P101 18,98 l&90 -0,4 54 Mon 3 559 CaCO, C,H,CaO, .4H,O, Calcium- (001) (010) [1 IO] I3011 9,86 9762 -2,4 58 Kle 1

tartrat-tetrahydrat 560 CaCO, C,HCl,O, Pentachlorphenol 1;;;; (001) [1IOl [OIOI 4,98 4,97 -0,2 49 Mer; 43 Wil4 561 CaCO, C,H,N,O,, +Chinondioxim [I TO] Nadel- 43 W‘il4

562 achse

CaCO, C,H,O,, or-Hydrochinon (10111) (0001) [r2*0] [lO*O] 21,60 22,06 2,l 54 Roy: 50 New I; 49 Mer; 41 Neu; 08 Bar

563 (1011) (IOiO) [Ol.O] [OO.l] 498 5,62 I%9 51 Roy 1; 33 Roy I 564 CaCO, C,H,O,, fi-Hydrochinon (100) (1OiO) [IOO] [OO*l] 16,16 16,24 0,5 41 Wil 565 (1011) (1010) [O‘ol.l] [OO.l] 16,16 16,24 0,5 50 Neu I; 45 Neu;

41 Wil; 08 Bar 566 (1011) (1010) [Ol.O] [OO.l] 4,$8 5,53 11,o 5ONeu 1;45Neu;

41 Wil; 08 Bar 567 CaCO, C,H,O,,l ,2, 4Trihydroxybenzol (001) (001) [I IO] [lOOI 4998 4233 -3,o 43 Wil4 568 CaCO, C,H,NO, o-Aminophenol (001) (010) [IIO] [loo] 8,08 7235 -2,8 54 Mon. 3 569 (001) (010) [I TO] [OOI] 14,94 14,50 --2,9 54 Mon 3 570 CaCO, C,H,NO, ;b-Aminophenol (001) (100) [IIO] [OIO] 8,08 %,I9 54 Mon 3; 52 Man 2 571 . (001) (100) [ITO] [OOI] 4,98 525 :::: 54 Mon 3; 52 Mon i 572 CaCO,

. . C,H,N%, p-Phenylendlamm ;:i:; fE;

[I101 IDo1 12,12 12,00 -1,o 49 Mer; 45 Neu 573 CaCO, C,Hr,N,, Urotropin (Tetra- [I101 [I il] 12,12 l&15 0,2 51 Wil: 49 Wil

methylentetramin) 574 CaCO, C,H,,O,, D-Glucose (001) (100) [IIO] [OOI] 4,04 4,97 23,O 49 Mer 575 CaCO, C,H&l,NO, 2,5-Dichlorbenz- (001) [1101 Nadel- 43 Wil4

hydroxamsaure 576

achse CaCO, C,H,Br,NO, 5,. 7-Dibrom-S-hy- (001) . [I101 Nadel- 49 Mer; 45 Neu

droxychinolin (Bromoxin) achse

T T 1 Phasen Ebenen Richtungen Perioden [A]

Wirt Gast

Ab- weichung

% Nr.

Wit-t Gast

577 578 579

CI,H,, Naphthalin

580

581 582 553 584 585 556 557

CaCO,, Calcit

CaCO,

CaCO,

CaCO,

C,&,02, 1,4-Dihydroxy- naphthalin

C,,H,O,, 1, S-Dihydroxy- naphthalin

Cr,H,,O, n-Campher

CaCO,

CaCO,

CaCO,

CaCO,

CaCO,

Cr,H,,O. P-Hydroxydiphenyl

55s 5s9 590

CI,HroO,, p,$‘-Dihydroxy- diphenyl


591

C,,H,O,, Alizarin (I, 2-Di- hydroxy-anthrachinon)

C,,H,,O, 3-Hydroxypyren

592

593 CaCO, CI,H,,N, 3-Aminopyren

594 ZnCO,, Smithsonit C,H,O,, a-Hydrochinon 595 MnCO,, Rhodochrosit C,H,O,, a-Hydrochinon 596 FeCO,, Siderit C,H,O,, a-Hydrochinon 597 FeCO, C,H,O,, Salicylsaure

Gast Lit.

Wirt Gast

[i io] [OlOl 4.98 6.00 20.5 54 Mon 3; 53 Mon 3 [II01 [1001 $08 &23 189 54 Mon 3; 53 Mon 3 [I io] roo11 4,95 4,80 -396 45 Neu

[i io] row 4.9s 4,so -33,6* 45 Neu

[Ol.O] r1001

Es;:; r1w [I iO] iI

[IO-O] 14,94 14,oo -683 [IO-O] 19,23 21,39 II,2 [IO-O] 20,Sl 21,39 2,s [IO-O] 21,49 21839 -085 [OW Ii,44 1123 -1,s wo11 I%12 1123 -7,3 lm~l 8.0s 7,95 -I,6

[I101 [i io] [To-11

[Ol -01

[Ol .O]

[Ol .O]

PlU ro111 [OilI [I io]

[0101 4,04 3,98 -1,s WI 01 19,9x 19890 -0,l roo11 17,72 1725 -2,7

58 Kle 3 58 Kle 1; 58 Kle 3 58 Kle 1 58 Kle 1 50 Neu 1 49 Mer 49 Mer; 40 Wil 1; 38 Wil 54 Roy: 51 Roy 1 51 Roy 1 50 Neu 1: 43 lieu 5

Nadel- achse Nadel- achse Nadel- achse [00-l] [00-l] [OO.l]

roof1

49 Mer

50 Neu 1

50 Neu 1

IO.92 II,24 Z9 49 Mer

1127 II,24 -0,3 49 Mer

1125 II,24 -0.1 49 Mer 4,50 4992 9,3 49 Mev

Wirt

(001) (001) (001)

(001)

(IOil)

fz:; (001) (001) (001) (001)

I:::; (toil)

(Ioil)

(ioii)

(toil)

(100) (100) (100) (001)

(loio) (ioio) (ioio) (100)

3.8 Silicate - Silicates

3.8.1 Silikat ohne fremdes Anion und ohne OH, H,O - Silicate without other anion and without OH, H,O

59s

599 600

Al,(Od30,), Cyanit (Disthen)

Al,(O . SiO,,)

C,HCl,O, Pentachlorphenol

C,H,NO. p-Aminophenol

(001) [OOI] ro101 5,57 4,93 -11,5** 51 wiz

(100) ;::A;

roo11 5,56 5.25 -516 54 Mon 3 (100) WOI 7972 &I9 681 54 Mon 3

Phases No.

Planes Directions Periods [A]

Substrate Sub- De- Sub- De- Sub- De- Misfit

Deposit % Ref.

strate posit . strate posit strate posit

601 Al,(O + SiO,), Cyanit C,H,,N,, Urotropin (Hexa- I I

(100) (110) [OIO] [III] 7,72 602

6,21 (Disthen)

--19,6 54 MO, 3 methylentetramin) (100) (110) [Oll] [ITO] 9*54 IO,15 64 54 Man 3

3.8.2 Silicate mit fremden Anionen, ohne OH, H,O - Silicates with other anions, without OH, H,O 603 K[ AlSi,O,] , Orthoklas C,HCl,O, Pentachlorphenol 604

(001) (001) [IO01 WOI 8,56 (010)

9,86 15,2** 51 Wil

605 K(AlSi,O,) (001) [1001 w101 8,56 9,86 15 2**. 51 wil

C,,H,O,, Anthrachinon 606

(001) (001) [IO01 [0101 8,56 7,96 -77:0** 54 Wil I

607 (010) (001) [1001 [0101 8x56

Al,[(F,OH),~SiO,], Topas 7,96 - 7,0** 54 Wil 1

C,HCl,O, Pentachlorphenol (001) (001) [loo] [OIO] 4,65 4993 6,0** 54 wit? I

3.8.3 Silicate mit OH, H,O, ohne fremde Anionen - Silicates with OH, H,O, without other anions 608 Mgd(OH),~Wh,), Talk C,H5N0,, Glykokoll (Amino- (001) (010) iI ww 5,27 5,41 2,7 58 Sei 2

essigsaure) 609 Wd (0% + sW,o) C,H,O,, /?-Bernsteinsaure (001) 610 WMOHL~ sWlo)

(010) [1001 II1001 5327 5,10 -3,2 C,Cl,, Hexachlorbenzol

50 Neu I; 43 Wil4

611 (001) (001) [I101 WOI IO,55 II,58 9,s 53 Wil

612 Mg8((W2. %%J (001) (001) [OIOI [0101 9,12 7,72 -IS,4 53 Wil

C,HCl,O, Pentachlorphenol 613

(001) (001) [I101 [0101 5,27 4,93 -6,s 53 Wil

614 MgdPWz~ %%J (001) (001) ro101 [OIO] 9,12 9186 53 Wil

C,,H,O,, Anthrachinon (001) (100) [OIO] [OOI] 615

9,12 7992 -,:a** 53 Wil (001) (100) [II01 [OOI]

616 10,55

Ca,(Al,Fe),-[O-OH-50, II,94 13:2** 53 W‘il

C,,H,O,, Anthrachinon . S&O,] Epidot

(001) (100) [loo] [OOI] 8,98 7,92 -11,8** 54 Wil I

3.8.4 Silicate mit fremden Anionen und mit OH, H,O - Silicates with other anions and with OH, H,O

617 W%,Fe,~),(OH,F), CH J3, Jodoform (001) (0001) [loo] [12.0] 5931 5,90 64 Kle I ( AlSi,O,,) , Biotit

II,1

618 K(Mg, Fe, Mn),(OH, FJz C,H,NO,, Glykokoll (Amino- (001) (010) [fool [OOI] - (Al&O,,,)

5,31 5,lO -4.0 58 Sei 2 essigsaure)

619 (001) (010) [IO01 [loo] 5,31 620 WMg, Fe, MMOH, Fh

5,45 2,6 58 Sei 2 C,,H,,O, DL-Campher (001) (0001) [210] [IO.01 14,08 14,28 I,4

. (AlSi,O,,) 64 Kb I: 61 Kle 3, 4 GO Kle 2; 59 Kle 1; 58 Kle I, 3: 57 Kle 2

621 , (001) (0001) [SfO] [IO-O] 27,18 28,56 5,1 58 Kle 3; 58 Kle I;

622 57 Kle 2

(001) (0001) [I301 [lO*O] 29,96 l 28,56 -4,7 58 Kle 3; 58 Kle 1; 57Kle2

Nr.

623

624 625 626 627 625

629

630

631 632 633 634 635 636 637 635 639 640

641

642 643 644 645 646

647 645

649

650 651 652

Wi*


Gast

K(Mg, Fe,Mn),(OH, Fla - (AISi,O1O), Uiotit

KMg,[(F,OH), . AISi,O,,I. Phlogopit

KMg,[(F, OH),.hlSr,O,,] KIIg,[(F, OH),. AlSi,O,,] (Ca,Na),(Mg,Al,Fe),

l C(OH,F),(Si,Al),O,,l, Hornblende (Rmphibol) KCa,[FI Si,O,,]* 8H,O,

Apophyllit KAl,(OH,F),(AISi,O,,),

Muskovit KAl,(OH, F),(AlSi@,,),

KAl,(OH,F),(AISi,O1,) ~L(OH,F),(A~WM

KAI,(OH, F),(AISi,Or,)

K4(OH, J%(AISWlo)

KAl,(OH,F),(AlSi,O,,)

KAl,(OH,F), (AlSi,Oi,) C,HCl,O, Pentachlorphenol KAI,(OH,F), (AlSi,O,,) C,H,O,, a-Hydrochinon

KAl,(OH, F),(AISi,Ol,) C,H,NO, +-Aminophenol

KAl,(OH, F),(AlSi,O,,) KAI,(OH, F),(AlSi,Oi,)

C,,H,,02, Benail

C,H,NO,, Glykokoll (Amino- essigsaure)

C,HCl,O, Pentachlorphenol C,,H,,O, D-Campher C,,H,O,, Anthrachinon


W&N% a-Polyglycin

(C,H,NO),, /?-Polyglycin

(C,H,O),, Polylthylenoxid C,H,NO,, Glykokoll (Amino-

essigsaure) (C3H5NO)“, Poly-L-Alanin

C,H,NO,, Alanin (Amino- propionsaure)


C,H,NO, o-Aminophenol COHn,NI, Urotropin (Hexa-

methylentetramin)

Gast

(0001)

(0001) (010)

;%i (0001)

(001)

(100)

(100) (100)

;::j

I::;; (010) ;;g;

(100)

(101)

(101)

[ii:; (11 20) (11 ZO)

(1120) (100)

(100)

(100) (010) (110)

Periockn [A]

Wirt --

PI01

Gast Wi*

Ab- weichung

% Lit.

Gast

[IO.01 9,23 8.42 -s,s 63 Kle 3

r~ool [IO-O] 15,93 16,84 5,7 63 KIe 3 [~OOI PJo11 5,33 5,lO -4.3 58 Sei 2 II~W [IW 5,33 5,45 2,3 58 Sei 2 [IO01 WOI 5,33 4993 -7,s 49 Mer; 43 Wil4

[I101 [lO.O] 21,12 21939 193 60 Kle 2 PO11 [OIOI IO,66 11,ss 11,2** 54 Wil I

[I101 roo~l 16929 15,s4 -2,s

ro101 [1001 rot 01 [IO01 [I IO] [I 001 [~OOI [I 101 [I 001 [I101

fo”::; [I To] [I io] [Of01 [0011 [1001 coo. I] [OO. I] [OiOl

9904 9,3o 299 lo,42 9,3o -lo,7

4,52 4,s9 82 5,21 4,59 -6,i

IO,42 19,so S7,l 5,lS 5,lO -1,s 5,lS 5,45 5,2

IO,40 IO,52 4,o 5,lS se41 4,4

IO,40 ii,62 11,7

[I201 IS,77 1 s,90 0.7

E:::; [1001 [1fOl iI

18.73 1 s,90 IS,65 1 S,9O

5,19 4,93 IO,40 II,24

5,19 562

o,9

-:I;

S:l S,3

[2io] [~OOI

13,72 II,24 -IS,1 5,19 5,25 12

DIOI

D~OI COlOl PJ101 [00-l] [OO - I]

::;,"

[OIOI

;:o”:; Kw

9,04 819 -9,4

IO,42 IO,50 0,s 10,3s lo,69 380

9,04 7,02 -22,3

54 Roy: 53 Roy 3

68 Sei 68 Sei 68 Sei 68 Sei 45 Neu 58 Sei 2 58 Sei 2 68 Sei 68 Sei 64 Kle I; 62 Ick

54 Mon 3

54MonJ 54 Mon 3 49 Mer 50 Roy 2; 49 Mer 50 Neu 1: 50 Roy 2; 49 Mer 50 Roy 2; 49 Mer 54 Mon 3; 52 Mon 2; 49 Mer; 45 Neu 54 Mon 3; 52 Mon 2; 49 Mer; 45 Neu 45 Neu 54 Non 3 54 Mon 3; 53 Monf; 49 Wil

Phases No.

Substrate Deposit 1 z;iri;it 1 girtiErt gri;iit 1 MT Ref.

653 KAI,(OH, F),(AlSi,O,,) C,H,,N,, Urotropin (Hexa- (001) (110) [loo] [IIO] IO,36 9893 -4,2 54 Mon. 3; 53 Man 3, Muskovit (Fortsetzung) methylentetramin

654 KAl,(OH, F),(AlSi,O,,) C8H403, Phthalsaureanhydrid 51 Wil; 49 Wil

(001) ’ (010) [loo] [OOI] 655

5,19 5,90 51Wil KAlz(OH,F),(AISi,O,,)

13,7 C,,H,,O, D-Campher (001) (0001) [ST01 [lO*O]

656 6,87 7913 3,s 64 Kle 1; 58 Kle 3

(001) (0001) [I301 [IO-O] 657

f&91 7913 32 58 Kle 3 (001) (0001) [210] [IO-O]

658 6375 7,13 5,6

KAl,(OH,F),(AISi,O,,) 58 Kle 3

C,,H,O,, Anthrachinon (001) (100) [I 001 roo11 IS,57 IS,92 22 54 Roy; 53 Roy 3;

659 51 Roy 2

(001) (100) [I301 [OOI] 660

13,81 IS>92 15,3 53Roy3;51Roy2 (001) (100) [I301 [OOI]

661 13,81 IS,92

KAl,(OH,F),(AlSi,O,,) 15,3

C H 0 Benzil 53 Roy 3; 51 Roy 2

14 10 2, (001) (0001) [OIO] [lO*O] 662

9,04 8,42 -69 63 Kle 3 (001) (0001) [loo] [IO-O] 15,57 16,84 8,2 63 Kle 3

663 CaAl,(OH),(AI,Si,O,,), C,H,NO,, Glykokoll (Amino- (001) (010) [loo] [OOI] 5,13 5,lO 58 Sei 2 664 Margarit

-0,6 essigsaure) (001) (010) [loo] [loo] 5,13 5,45 62 58 Sei 2

665 CaAl,(OH),(Al,Si,O,,) C,,H,,O, D-Campher (001) (0001) [IOO] [IO-O] IS,39 14,26 64 Kle I; 60 Kle 2 666 KLiFeAl[ (F,OH), C,,H,,O, D-Campher

-7,3 (001) (0001) [IIO] [IO-O] IO,51 IO,70 I,8 60 Kle 2

l AlSi,O,,] , Zinnwaldit 667 WgJ+hA12CPW8~-% C,H,NO,, Glykokoll (Amino- (001) (010) [loo] [loo] 520 5,45 58 Sei 2 668

423 l Si,O&J , Chlorit essigsaure) (001) (010) [I 001 PJ11

669 520 5,lO 58 Sei 2

(Mg, FWJ2UOW8~A12 -I,9

C,HCl,O, Pentachlorphenol (001) (001) !I1001 [0l01 520 493 -5,2 43 wi14 - VU

670 0% F44A12WW8~A12 C,,H,O,, Alizarin (1, %Di- (001) (010) [loo] [loo] 20,80 21,00 50 Neu I; 43 Neu 5 - %%I

I,0 hydroxy-anthrachinon)

671 XY,(OH,F),(~SW,,) CH,N,O, Harnstoff (001) (110) [OIOI iwl 920 9,42 ~4 44 Neu I X= K,Na Y = Al, Mg, Fe 2 = Al, Fe Glimmer

672 (001) (110) [loo] [ITO] IS,60 16,00 44 Neu I 673

2,6 (001) (100) r1001 ro101

674 520 5,66 83

XY,(OH,F)2(Z%O;o) CH,N,S, Thioharnstoff 49 Mer; 44 Nets I

(001) (010) [0101 [OOII 675

920 8,54 - 7,2 50 Neu 1; 44 Neu I (001) (010) [loo] [loo]

676 5,20 5,52 62 50 Neu I; 44 New 1

(001) (100) [OIO] [OOI] 9,20 8954 44 Neu I 677

- 72 (001) (100) [IO01 PO1 IS,60 IS,32 -I,8 44 Neu I

678 XY2(0H,F),(~%0,,) C,H,N,O,S, B-Sulfanilamid (001) (001) [IO01 [I 001 679

520 5,76 lo,8 64 Sei XY2(OHJ We%%) C,H,NO,, +Nitrobenzoes&ure (001) (001) [loo] [OIO] 520 5,07 49 Mer; 45 NezG

680 -2,s

XY,(OH, Q&WM C,H,Br,NO; 5,7-Dibrom- (001) [IO01 Nadel- 49 Mer; 45 Neu S-hydroxychinolin (Bromoxin)

681 achse

(001) II1101 Nadel- 45 Neu achse

Nr. Wirt

682

6i3

XY,(OH, F)&Si,O1,) Glimmer (Fortsetzung)

XY,(OH. F),(ZSi,Ou,)

684 XY,(OH, F),(ZSi,Ol,)

685 656 687 688 6S9 690 691 692

XY,(OH, We%&,)

693

694 695

XY,(OH. ~W%%)

XY,(OK F),(~%%)

XY,(0H,F),(~%%)

Phasen

Cr,H,,SO, ;/-tcrl.-Isobutyl- caprolactam

C,,H,O,, 2, jr-Dihyclroxy- naphthalin

C,,H,O,, Alizarin (I, %Di- hydroxy-anthrachinon)

C,,H,O,, Purpurin (I, 2,4-Tri- hydroxy-9,1 O-anthrachinon)

C,,Hr,N,O,, Azoxyanisol (Dimethoxy-azoxybenzol)

C,,H,,Na, Pseudoisocyanm

C,,H,,ClN,, Pseudoisocyanin- chlorid

Richtungen Perioden [A]

Gast Wirt Gast Wirt Gast

Ab- weichung

%

[OIOI ~aclel- achse LOO11

4PWiL

w101 9,20 9,60 483" 45Neu

r1001 row IO,40 41.25 8.2 5ONeu 1

[I IO] [I101 W~OI [II01 [i io] [I101 [OIOI [OIOI

[FE:3 [1001 [IO01 r1w [IO01 [0101 Nadel- achse

Nadel- achse

IO.55 11825 6,6 IO,55 11,25 66 IS.40 21,oo 14,l 21,lO 21,oo -0,s 20,so 20,30 -22,4 20,so 20,30 -2,4

9.04 8.00 -11.5**

50Neu 1;43Neu5 50Neu 1:43Neu5 50Neu I;43Neu 5 50Neu 1:43Neu5 43Neu5 43Neu 5 43Neu5 13 Mau

64Sei

10.40 IO,55 194 42Neu 2 27,60 27920 -1,4 42Neu2

Lit.

4 Epitaxien anorganischer Gastkristalle auf organischen Wirtkristallen - Epitaxies of inorganic deposit crystals on organic substrate crystals

Phases Planes Directions Periods [A] No. Sub-

I De- Sub- De- Misfit


% Ref.


1 CH,N,O, Harustoff NH,Br, Oh-Pm3m (001) (001) [IIO] [loo] 4,00 4,06 1,s 49 Mer 2 CH,N,O NH&l, Salmiak (001) (001) [IlO] [loo] 4,00 3,87 -3,3 49 Mer 3 C,H,N,O,, Hamsaure Ca,(OH. (PO,),), Hydroxyl- (loo) (0001) [OOI] [21.0] 31,OS 32,62 5,1 68 Lon 2 4 Apatit (100) (0001) [OIO] [IO.01 29,60 28,26 -4,s 68 Lon 2 5 (210) (1010) [OOl] [Ol.O] IS,63 IS,84 68 Len 2 6 (210) (1010) [IZO] [00-l] 19,78 20,64 i:: 68 Lon 2 7 (210) (1120) [OOl] [II-O] 31,05 32,62 68 Lon 2 8 (210) (IIZO) [I201 [00-l] 19,78 20,64 2:: 68 Lon 2 9 (210) (4150) [OOI] [14-o] 37,26 39,94 7,2 68 Lon 2

10 (210) (4150) [I201 [00-l] 19,78 20,64 4,3 68 Lon 2 11 GkN,O, CaHPO, .2H,O, Brushit (100) (010) [OOl] [IOI] 6,21 6,23 6,s 68 Lon 2 12 (100) (010) [OIO] [IOT] 29x50 30,72 3,s 68 Lon 2 13 (100) (101) [OOll [IOI] 6,21 6736 224 68 Lon 2 14 _’ (100) (101) PI 01 P101 14,so IS,18 2,6 68 Lon 2 15 (100) (001) [OOI] [loo] 6,21 5,81 - 6,4 68 Lon 2 16 (100) (001) [OIO] [OIO] 14,80 IS,18 2,6 68 Lon 2 17 (210) (010) [OOI] [IOI] 6,21 6,36 2,4 68 Lon 2 18 (210) (010) [IZO] [IOT] 19,78 20,48 3,s 68 Lon 2 19 GP,N,O, Ca,H,(PO& - 5 H&4 (210) (100) [OOI] [OIO] l&63 1926 3,4 68 Lon 2 20 Octacalciumphosphat (210) (100) [IZO] [OOI] 19978 20,64 4,3 68 Lon 2 21 (210) (010) [OOI] [loo] l&63 19237 67 68 Lon 2 22 (210) (010) [IZO] [OOI] 19,78 20,64 4,3 68 Lon 2 23 V-W-d% NH,MgPO, .6H,O, Struvit (100) (001) [OOI] [OIO] 6,21 6,14 -I,1 68 Lon 2 24 (100) (001) D~OI Cl 001 7,40 694 -6,2 68 Lon 2 25 (100) (011) [OOI] [Ol I] f2,42 f2,77 2,s 68 Lon 2 26 (100) (011) [OIO] [loo] 7,40 694 -6,2 68 Lon 2 27 (100) (010) [OOII Doll 12,42 II,20 -93 68 Lon 2 28 (100) (010) [OIO] [loo] 7940 694 -6,2 68 Lon 2 29 (210) (101) [0011 ro101 6,21 6,14 -I,1 68 Lon 2 30 (210) (101) [IZO] [IOT] 39,56 39,34 -0,6 68 Lon 2 31 (210) (001) [OW [0101 6,21 6,14 -I,1 68 Lon 2 32 (210) (001) [IZO] [loo] 19,78 20,82 5>3 68Lon2

Nr.

33 34 35 36 37 3s 39 40 41

42

43 44

45 46

47 4s

49 50 51 52 53 54 55 56 57 5s 59 60 61 62 63 64

65 66 67 6s

Phasen

Wirt

C,HaN.,OJ, Hamsaure Ca,(PO,),, Whitlockit

C,HI,N,O& L-Cystin

GH~~N,W,

C,H,,N,O,,S, Triglycinsulfat

GH,,WJ,,S

CcJ%,N,O,,S

W-LN,%S

GH,,Ns%S

CJW’@v,S C,H,,N,O,,S

C,,H,,CM,S. 4H,O, lMethylenblau-tetrahydrat

C,,H,,, Hexaathylbenzol C,,H,,O, Cholesterin

Ca,(OH. (PO,),), Hydroxyl- Rpatit

MgNH,PO, - 6H,O, Struvit

AgCl, Chlorargyrit

or-Ag J, Miersit

AgBr, Bromargyrit

NaCl, Halit

PbTe. Altait

a-CdS, HawIeyit

SnSe, Ok-Fm3m

Pb(NO,),, Nitroplumbit

NaCl, Halit CaCO,, Aragonit

W%,O CaCO,, Calcit

G&,0 CaCO,, Vaterit

GJX,~O

Kollagen

Ca,(OH - (PO,),), Hydroxyl- Apatit

Ca,(OH - (PO,),), Hydroxyl- Apatit

Kollagen Kollagen Kollagcn

Gast

CaHPO, - 2H,O, Bmshit CaHPO,, Monenit Ca,H,(PO,),- 5 H,O,

Octacalciumphosphat

Wirt

(210) (210)

g::; (0001) (0001) (0001)

;:z;’

(010)

(010)

(010)

(010)

(010)

(010)

(010)

(010)

/::oo;

;:::; [OIO) :olo) :olo) [OIO) :olo) :olo) :olo) ;w :OI 0) :OlO) ,ioio)

iloio) ioio) ‘loio) jioio)

Cast

(0001) (0001) (1020) (1020) (0001) (0001) (110) (110) (001)

(001)

(001)

(001)

(001)

(001)

(001)

(001)

(001) (001) (001)

I::;; (ioio) ;;g; (foio) (loio) /yg, [ioio) :I 120) :I 120) :loio)

[loio) :olo) :ool) :olo)

T Richtungen

Wi* Gast

[21*0] l&63 17,S8 -4,0 [IO.01 19,7s 20,64 493 [21 .O] 18.63 17,SS -4,0 [OO.l] 39956 37,oo -65 [21 .O] 16,26 16.31 0,3 [lO.O] 9,39 9,42 083 roo~l lO,S4 II,20 3.3 [i io] 9.39 9827 -1.3 iI 5873 5*55 -3,1

[I101 9,15 9,16 61

II1001 5,73 5,7s 099

[1001 5,73 5,64 -I,6

iI 9.15 9-11 -0,4

[I 001 5,73 5,S2 I.6

WI 9.15 8.85 -3>0

r1001 7,07 7,S6 II,2

[I101 [I 001 COlOl l-1 001 PI 01 [01-O]

[E; Loo: I] [Ol SO] [OO. I] [Ol .O] [OO.l]

;;p - A;

[OO.l]

[Ol -01 [OW 1001

[OOI]

T Perioden [A]

Wirt Gast

Ab- weichung

%

12,20 If,97 -199 29,S9 29,76 -0,4 34,37 31,ss -722 14,oo 14,ss 6.3 31,38 31,ss I,6 29,S9 29,94 62 34937 34.12 -0,7 14,oo 14,97 6,9 31,38 34,lZ 597 29S9 28.64 -4,2 34.77 33896 -2,3 14.00 14.32 2,3 31.38 33896 52 14,oo 13876 --1,7 31938 32,62 4.0 2S,60 27852 -3,s

15,oo 14,13 - 5,8 2S,60 25,52 -lo,8 2S60 27,60 -3,s 2S,60 27,52 -3,S

T Lit.

68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 G8 Lon 2 70 Vla 70 Via 70 VZa

70 Vla 70 Vla 70 VZa

70 Vla

50 Neu I: 33 Bun; 25 Gau 48 Wil 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Lon 2 68 Len 2 68Lon 1; 68Lon2 68 Lon 1; 68 Lon 2 68 Lon 2 G8 Lon 2 G8 Lon 2 68 Lon 2 70 Geb; 64 Sei: 62 Sei 70 Geb 70 Geb 70 Geb 70 Geb

5 Epitaxien organischer Gastkristalle auf organischen Wirtkristallen - Epitaxies of organic deposit crystals on organic substrate crystals


Periods [A]


Deposit Ref.


1 (CH,O),, ,9-Polyoxy- (C,H,),, Polyathylen (0001) (100) [21 - 01 [OOI] 7,68 methylen

7,59 -I,2 67 Wil; 63 Wil

2 P=W), C,HCl,O, Pentachlorphenol (0001) (001) [IO*01 [OIO] 4,43 63 Tim 3 CH,N,O, Harnstoff

4,97 12,2 C,HCl,O, Pentachlorphenol (110) (001) [OOI] [OIO] 4,71 4,97 5,5* 50 Neu I; 49 Mer;

4 CH,N,O C,H,NO,, P-Nitrophenol 46 Wil; 43 Wil4

(110) (001) [OOI] [OlO] 9,42 8,90 -5,5* 50 Neu I; 49 Mer;

5 CH,N,O C,H,,BrN,O,, Bromural (110) 46 Wil; 43 Wil 4

(010) [OOI] row 4,71 5,08 7.9** 55 Bra (Bromisovalerianylhamstoff)

6 CH,N,O C,H,O,, Salicylskrre (110) (100) [OOI] [OOI] 7 CH,N,O

4,71 492 4,5 50 Neu t C,,H,,O, Hydroxypyren (110) Pw Nadel- 50 Neu I; 49 Mer;

8 CH,N,O achse 46 Wil; 43 Wil 4

CH,N,O + C,H,Oz, (Hamstoff (I I 0) PW Nadel- 50 Neu f + Hydrochinon) achse

9 CH,N,S, Thioharnstoff C,H,,BrN,O, Bromural (010) (010) [loo] [ml 15231 1524 -0,5** 35 Bra (Bromisovalerianylhamstoff)

10 C,H,CI,NO, Trichlor- C,H,,BrN,O, Bromural (010) ‘[OOI] Nadel- 55 Bra acetamid (Bromisovalerianylhamstoff)

11 b,H,O,, Oxalsslure achse

C,H,,BrN,O,, Bromural (010) (0101 [OOI] [fool 12,lS II,12 --9,5** 55 Bra (Bromisovalerianylhamstoff)

12 ‘C,H,N,, Dicyandiamid ‘C,H,,BrN,O,, Bromural (100) (010) [OIO] COOlI 4945 5,08 14,2** 55 Bra (Bromisovalerianylhamstoff)

13 C&W,>. C,,H,,O, nL-Campher [;;;; (0001) [OIO] [10*0] 13,35 1428 7,O 14 WW,

51 Bra f C,,H,,O, Isobomeol WlOl Nadel- 51 Bra f

achse 15 C,H,ClNO, Chloracetamid C,,H,,O, DL-Campher (001) (0001) [loo] [IO.01 16 C,H,ClNO

7,42 7,14 -3,s** 51 Bra f C,,H,,Cl, Bomylchlorid (001) (001) [OIO] [loo] 10,28 1639 1,1** 51 Bra f

(o-Pinenhydrochlorid) 17 C,H,ClNO C,,H,,O, D-Borneo1 (Bomeo- (001) (001) [OIO] [loo] IO,28 1025 -0,3** 51 Bra f

campher) 18 C,H,ClNO C,,H,,O, Isobomeol (001) [OlOl Nadel- 51 Bra f

achse 19 C,H,NO, Acetamid C,,Hi,O, DL-Campher (010) (0001) [OOI] [IO.01 7,78 7,14 --X,2** 51 Bra f

c

Phasen Ebenen Ab- XT- Richtungen Perioden [*I IY r. . ..-.-I-..-- T fL Wi* Gast Wirt Gast Wi* 1 Gast Wirt Gast

C,H,NO, Acetamid C,,H,,Cl, Bomylchlorid (010) WI [I101 7,78 7,35 - 5,5** 51 Bra 1 (o-Pinenhydrochlorid)

C,H,NO C,,H,,O, n-Borneo1 (Bomeo- (010) row r1001 7.78 7.30 -6,2** 51 Bra 1

C,H,NO campher)

C,,H,,O, Isobomeol (010) WI 51 Bra 1

C,H,N,O, Methylhamstoff (001) r~~ol 13,75 15124 10,6+* 55 Bra

(C,H,N),, Polyacrylnitril (001) r~~~l II,60 12.10 4,3 64 Sei C,H,N,O,, 1, 3, 5-Trinitro- (010) roo13 IO,72 IO,16 - 5,2** 55 Bra

trimethylentriamin C,H,NO, Propionamid (100) P~~l 5,78 61% 6.9** 51 Bra 1 C,H,NO (100) KJ101 II,56 IO,39 -10.1** 51 Bra 1

Nadel- achse roo11

[lOOI row

[21-O] [IO01

1 [pool If.56 1025 -11,3**

20

21

22

23

24 25

26 27

28

29

30

31

32

33

34 35

36

37

3s

39

40

41

C,H,NO 51 Bva 1

C,H,NO

C,H,,BrN,O,, Bromural (Bromisovalerianylhamstoff)

C,HCl,O, Pentachlorphenol C,H,,BrN,O,, Bromural

(Bromisovalerianylhamstoff) C,,Hr,O, DL-Campher C,,H&l, Bomylchlorid

(n-Pinenhydrochlorid) C,,H,,O, D-Borneo1 (Bomeo-

campher) C,,H,,O, Isobomeol

[OlOl

ro~ol

PW

Nadel- achse

Nadel- achse

Nadel- achse

Nadel- achse

Nadel- achse WI Nadel- achse m11 [10.0-j [1001

51 Bra 1

C,H,NO,, Lactamid C,,H,,O, or--Campher

(&,Hr,Cl, Bomylchlorid (o-Pinenhydrochlorid)

C,,H,,O, D-Borneo1 (Bomeo- campher)

f&H,,O, Isobomeol

(010) 51 Bra 1

W-&NO, (010) 51 Bra 1

WWO, (010)

WI

row 51 Bra 1

GWJO, 51 Bra I

C,H,S, Thiophen C,H,BrO,, nL-Brom-

bemsteinskrre C,H,N, Pyrrol C,H,NO,, Succinimid

GHJ’JO,

C,,Hr,, Triphenylmethan C,HrrBrN,O,, Bromural

(Bromisovalerianylhamstoff) C,,H,,, Trlphenylmethan C,,H,,O, DL-Campher C,,H&l, Bomylchlorid

(o-Pinenhydrochlorid) C,,H,,O, D-Borneo1 (Bomeo-


(010)

WI

(010) (0001)

(001)

(001)

ro101 WI

7,20 7,60 5,6** 08 Bar 55 Bra

7,30 7.60 4,1* 08 Bar 7,54 7,14 --5,3** 51 Bay I 9365 IO,39 7,7** 51 Bra 1

C,H,NO, (001)

WI r1001 LOi 01

GH,NO, (001)

P101 [IO01 9,65 fO25 6,2**

[I 001 I 51 Bra ?

C,H,N,O,, Dioxypiperazin C,HCl,O, Pentachlorphenol (010) (001) row

Nadel- achse [pool

I 51 Bra ?

Ii,26 12,lO 7.5 I 50 Neu I; 49 Mer; 46 Wil; 43 wiz 4

W

No. Substrate

Phases

Deposit



42

43

44 45

46

47

48

49 50 51 52 53 54 55 56 57 58 59 60 61

62

63

64

65

66

C,H,O,, /?-Bernsteinsaure C,H,,BrN,O, Bromural (Of01 (010) [loo] [OOII 5310 5708 -0,4** 55 Bra (Bromisovalerianylharnstoff)

C,H,N,O,, N, N’-Dimethyl- C,HiiBrN,O,, Bromural (010) (010) [OOI] [OOI] 4,80 5908 5,8** 55 Bra oxyamid (Bromisovalerianylharnstoff)

C,H,NO, n-Butyramid C,,Hr,O, DL-Campher (001) (0001) [OIO] [21 .O] 5,79 6,18 6,7** 51 Bra 1 C,H,NO C,,H,,Cl, Bornylchlorid (001) (001) [loo] [loo] 9,94 10939 4,5** 51 Bra I

(o-Pinenhydrochlorid) C,H,NO C,,H,,O, D-Borneo1 (Bomeo- (001) (001) [loo] [loo] 9,94 IO,25 3,1** 51 Bra1

campher) C&H,NO C,,H,,O, Isobomeol (001) [IO01 Nadel- 51 Bra I

achse C,H,,N,O,, Harnstoffoxalat C,,H,,ClN,S .4H,O, Methylen- ’ (010) (010) II1011 ml1 7,48 7,07 -5,5 5ONeu 1;32Gazl

blau-tetrahydrat C,H,N,O,, Hams&ire C,H,CaO,, Whewellit [1001 6,21 6,28 I,1 68 Lon 2

(Calcium-oxalat-mono- y; y;; p;;

[0101 14,80 14,57 -I,6 68 Lon 2 hydrat) yy y; p; [IO01 6,21 6,28 121 68 Lon 2

[IO21 19,78 19,07 -3,6 68 Lon 2 WW,O, C,H,CaO,, Weddelit (Calcium- (I do) (101) PO11 [0101 12,42 12,30 -I,0 68 Lon 2

oxalat-dihydrat) (100) (101) [OIO] [lOi] 14,80 14,32 -322 G8 Lon 2 WW,O, C,H,N,O,.2H,O, Hamsaure- (100) (100) [OOI] [OOI] 6,21 6,35 2,3 68 Lon 2

, dihydrat (100) (100) [OIO] P101 7940 7,40 0 G8 Lon 2

(100) (101) [OOI] [IOT] l&63 18,64 O,l 68 Lon 2 (100) (101) [OIO] [OIO] 7,40 7,40 0 68 Lon 2 (100)

1;;;; Kw [OOII 6,21 6,35 2,3 68 Lon 2

(100) [OIOI [I ZO] 22,20 22993 393 68 Lon 2 C&3,0,, Chloranil (2,3,5,6- C,HBr,O, Pentabromphenol (001) (001) ‘[loo] [loo] 8,77 ,8,50 -3,? 49 Mer; 47 Wil I

Tetrachlor+benzochinon) GcLo2 C,HCl,O, Pentachlorphenol (001) (001) iI [Of01 8,77 9.94 13,3 50 Neu 1; 49 Mer;

47WilI ww, C,H,Cl,N, Pentachloranilin (001) (100) [Of 01 WOI 5878 5,43 -6,1* 5ONeu I;47 Wil

GCW2 C,H,N, Anilin (Aminobenzol) (001) (100) [OIO] [OIO] 5,78 5,33 -738 49 Mer; 47 Wil I

GCWZ C,H,,BrN,O,, Bromural (001) (010) [OIO] [OOI] 5978 5908 -12,1** 55 Bra (Bromisovalerianylharnstoff)

ww, C,,H,,, Anthracen (001) (001) [loo] [loo] 8,60 8,i6 -0,5 52 Wil; 50 Neu I; 49 Mer; 47 Wil I;

67 44 Wil

(001) (001) [OlO] [OIO] 5,78 6,04 4,5 52 Wil; 50 Neu I; 49 Mer; 47 Wil I; 44 Wil I


Wirt Gast weichung Lit.

Wirt Gast Wirt Gast Wirt I

Gast %

6s C&1,0,, Chloranil (2,3,5,6- . . C,,H,,, Hexaathylbenzol (001) (100) [OIO] [OOI] 5,78 6,10 5.5 50 Neu 1; 47 Wil I Tetrachlor-P-benzochinon)

69 C,Cl,, Hexachlorbenzol C,H,,O,, Pentaerythrit ;y; (001) [IO01 iIll 8.10 s,4s 4,7** 49Wil 70 c4& C,H,,BrN,O,, Bromural (010) [OlO] [OOII II,58 IO,16 -12,3** 49Wd

(Bromisovalerianylhamstoff) 71 C,HCI,O, Pentachlorphenol C,,H,,NO, y-tevt.-Isobutyl- (001) II1001 Nadel- 49Wd

caprolactam 72

achse C,HCl,O C,H,,O,, Trimethylolithan (001) [IW Nadel- 49 Wil

73 achse

C,HCl,O C,H,,O,, Pentaerythrit (001) (001) [loo] [loo] 12,lO 12,20 o,s** 49Wil 74 C,H,CM,08, Pikxylchlorid C,,H,,, Fluoren (001) (010) [loo] [OOI] II,10 II,44 391 5ONeu I 75 C,H,Cl,N, Pentachloranilin C,H,,O,, Pentaerythrit (100) (001) [OIO] [loo] 5,43 6,10 12,3* 49Wd 76 C,H,Cl,N C,,H,,NO, y-tevl.-Isobutyl- (100) imo1 Nadel- 49 Wil

caprolactam 77

achse C,H,N,O,, I, 3,5-Trinitro- C,H,N,O, + C,,H,N, (Tri- (010) (010) [loo] [loo] 12,77 12.50 0,2* 50 Neu 1

benzol nitrobenzol +Naphthylamin) 7s CPAQ C,,H,, Naphthalin’ (010) (001) [loo] [OIO] 12,77 12.00 -6,o 50 Neu 1

79 GJW,Q, C,,H,N, /3-Naphthylamin (010) (001) [loo] [OIO] 12,77 12,oo -6,o 5OiVeu I so GH,N.@, C,,Hr,N,, I, 5-Naphthylen- (010) (100) [OOI] [OOI] 9.74 IO,16 4,3 50Neu 1

diamin Sl GH,N,Q C,,H,,O, Isobomeol (010) DO11 Nadel- 51 Bra 1

x2 GJAN.@, C,,H,,, Acenaphthen (010) (010j [loo] Gt 25,54 24,S7 -2,6 5ONeu 1

53 C&W.@, C,,H,,, Fluoren (010) (001) [loo] [OIO] 12,77 II,44 -10.4 50 hTeu 1 54 GH,N,O, Cr,H,,, Anthracen (010) (001) [loo] [OIO] 12877 12,os -584 50Neu 1 s5 C,H,N,O,, a-PikrinsPure C,H,O,, Brenicatechin (001) (100) [OIO] [001-J 5805 5,4s S,s** 5ONeu I

(o-Dihydroxybenzol) S6 C,H,N,Q C,H,rBrN,O, Bromural (001) (019) [OIO] [001-J 5,os 590s 0,6** 55 Bra

(Bromisovalerianylhamstoff) s7 C&N@, C,,H,, Naphthalin (001) (001) [OIO] [loo] IS,15 16,4S s,s 50Neu 1 SS WLWP, C,,H,,O, DL-Campher (001) (0001) [OIO] [IO-O] IS,15 14,2S - 5,7** 51 Bra I s9 GHJW, Ci,H,,CI, Bomylchlorld (001) (001) [OIO] [loo] IO,10 10839 2,9** 51 Bra I

(n-Pinenhyclrochloricl) 90 GH,N,O, C,,H,,O, D-Borneo1 (Bomeo- (001) (001) [OIO] [loo] IO,10 IO,25 1,5** 51 Bra 1

campher) 91 C,HJW, C,,H,,O, Isoborneol (001) PO1 Naclel- 51 Bra I

I achse

Phases Planes Directions Periods [A] No. SUb- De- Sub- De- Sub- De- Misfit Ref.


92 C,H3N,0,, or-Prikinsaure CrZHiO, Acenaphthen (001) (010) [OIO] I3011 15,15 14,46 : -4,6 50 Neu I 93 GJW,Q &Hi,, Coronen (001) (100) [OIO] [010] 5,05 4,69 -7,1** 50 Neu I; 49 Mer;

43 Wil I 94 C,H,BrJ, p-Bromjodbenzol C,H,,BrN,O, Bromural (010) (010) WI Nadel- 55 Bra

(Bromisovalerianylharnstoff) achse

95 C,H,BrNO,, p-Bromnitro- C,H,,BrN,O,, Bromural (010) (01,o) [OOI] [OOI] 5.34 5>08 -4,9** 55 Bra benzol (Bromisovalerianylharnstoff)

96 C,H, Je, p-Dijodbenzol C,H,,BrN,O, Bromural (010) (010) [loo] [OOI] 14,76 f5,24 3>3** 55 Bra (Bromisovalerianylhamstoff)

97 C,H,N,O,, p-Dinitrobenzol C,,H,, Naphthalin (100) (001) [OOI] [OIO] 5,65 6,00 62 50 Neu 1

9% C,H,N,O,, a-Dinitrophenol C,,H,,O, DL-Campher (010) (0001) [loo] [21 *O] ‘6,11 6,18 1,1** 51 Bra I

99 G&N@, C,,H,,Cl, Bomylchlorid (010) (001) [OOI] [loo] IO,34 IO,39 0,5** 51 Bra I (o-Pinenhydrochlorid)

100 C&W-,0, C,,H,,O, D-Borneo1 (Bomeo- (010) (001) [OOI] [loo] IO,34 1025 -0,9** 51 Bra I campher)

101 WW,OS C,,H,,O, Isobomeol (010) I3011 Nadel- 51 Bar I achse

102 C,H,N,O,, y-Dinitrophenol C,,H,,O, Dr.-Campher (010) (0001) [IOO] [21.0] 12,lO 12,36 2,1** 51 Bra I 103 C&W@, C,,H,,O, n-Borneo1 (Bomeo- (010) (001) [OOI] [loo] 9,50 fO,25 7,9** 51 Bra I

campher) 104 GNP&S C,,H,,O, Isobomeol (010) iwl Nadel- 51 Bra 1

achse 105 C,H,N,O,, 2, 4-Dinitro- C,H,,BrN,O, Bromural (010) (010) [OOI] [OOI] 5917 5,os --1,7** 55 Bra

phenol (Bromisovalerianylhamstoff) 106 C,H,NO,, p-Nitrophenol C,,H,,Cl, Bomylchlorid (100) (001) [OOI] [IIO] 6217 7,35 19,1** 51 Bra I

(n-Pinenhydrochlorid) 107 C,H,NO, C,,H,,O, D-Borneo1 (Borneo- (100) (001) [OOI] [IIO] 6,17. 7,30 l&3** 51 Bra I

campher) 108 WWO, C,,H,,O, Isobomeol (100) [OOII Nadel- 51 Bra I

achse 109 C,H,, Benz01 C,H,S, Thiophen (010) (010) [IO01 [IO01 7,44 7,2Q -3,2 37Sei I

110 ‘4% C,,H,,, Triphenylmethan (010) (010) [loo] [OOI] 7,44 7,60 22 08 Bar

111 C,H6N,0, Nikotinsaureamid C,Hi,BrN,O,, Bromural (010) (010) [OOI] [OOI] 15188 1524 -4,o** 55 Bra (Bromisovalerianylharnstoff)

112 C,H,N,O,, p-Nitroanilin C,H,rBrN,O, Bromural (100) (010) [OIOI [OOII 6,07 5,os -16,3** 55 Bra (Bromisovalerianylhamstoff)

113 GJ%NzOz C,,H,,O, Dr.-Campher 6807 6,18 I,%** 51 Bra I 114 C,%N,O, C,,H,,Cl, Bornylchlorid IO,54 IO,39 -1,4** 51 Bra I

(o-Pinenhydrochlorid) ’ ’

Nr. Wirt

115

116

C,H,N,O,, +Nitroanilin

C&N@,

117

11s

C,H,O,, Resorcin (m-Dihydroxybenzol)

GfW,

119

120

&H,O,, Brenzcatechin (o-Dihydroxybenzol)

WW,

121 W-W,

122 WWh

123 C,H,O,, a-Hydrochinon 124 GH,Oz

126 W=W,

127 12s 129

130 131 132 I33

134 W=Wh

135 WW, 136 GJW, 137 C&O,


Gast Gast Wirt

C,,H,,O, ~-Borneo1 (Borneo- campher)

C,,HI,O, Isobomeol

CBr,, Tetrabromkohlenstoff

Cr,H,N, Acridin (Dibenzo- pyridin)

C,,H,,Cl, Bomylchlorrd (n-Pinenhydrochlorid)


C,,H,,O, Isobomeol

C,H,OI + CBH402, (Brenz- catechin + Chinon)

C,H,N,O,, Hexogen (Cyclonit) C,H,BrO,, oL-Brombemstein-

same C,H,N,O,, N,N’-Dimethyl-

oxamid C,H,BrNO,, P-Bromnitro-

benzol C,H,O,, p-Chinon C,H,N,O,, P-Nitroanilin C,H,,BrN,O,, Bromural

(Bromisovalerianylhamstoff) C,H,NO, Benzamid C,H,N02, o-Aminobenzoesaure C,H,BrNO, P-Bromacetanilid C,H,O,, Anissaure

(4-Methoxybenzoesaure) C,H,,N,O,, Verona1

(5, 5-Diathylbarbitursiure) C,Hr,O,, Korksgure C,H,rNO, +Acetotoluidin C,,H,,O, DL-Campher

(100)

(100)

(100)

(100)

(fO0)

(100)

(100)

(100)

(1010) (IOiO)

(IOiO)

(ioio)

(roio) (ioio) (loio)

(ioio) (ioio) (loio) (loio)

(zoio)

(loio) (ioio) (ioio)

(001)

(100)

(100)

(001)

(001)

(100)

(010)

(010)

(100) (100) (010)

(100) (010) (010) (100)

(010)

(100) (100) (0001)

Wirt Gast

roll1

[O~ll

[fool

roo11

[OIOI

[OIOI

WI

PO11

;I$: :3

[00*1]

[OO. I]

[00-l] [OO. I] [OO - I]

[OO. I] [OO.l] [00-l] [OO. I]

[01-O]

[OO.l] [Ol.O] [OO- I]

[1001

Nadel- achse [0101

PO~I

[fool

[I 001

Nadel- achse [OOII

[IO01 Nadel- achse

Nadel- achse [1001

row ro101 [IO01

roo11 roo11 [OW ro101

r1001

ro101 WO~I [12.0]

Perioden [A]

Wirt Gast

IO.54 10,z -2,s**

9,53 IO,23 7.3**

566 6,07 7,2**

IO.74 IO.39 -3,3**

IO,74 IO,29 -4,2**

5,48 5,46 -0,4*

562 5,92 5,3**

5862 5,77 2,7** 5.62 6907 s,o**

1l,24 II,12 --1,1**

5862 5,59 11.24 IO,50

562 6,67 II,24 II,00

22,06 21,36

5.62 5,06 22.06 22,so

562 6,17

-0,5+* -3,9** 1s,7**

-2,1**

-3,2**

-1o,o** 3,4** 9,s**

Ab- weichung

% Lit.

51 Bra 1

51 Bra 1

49 Wil

50 Neu f

5f Bra I

51 Bra 1

51 Bra 1

50 Neu 1: 49 Bra

58 Bra 58 Bra

58 Bra

58 Bra

50 Neu f 58 Bra

58 Bra; 55 Bra

58 Bra 58 Bra

58 Bra 58 Bra

58 Bra

58 Bra 58 Bra

51 Bra 1


Substrate Deposit Sub- De- %


138 . C,H,O,, or-Hydrochinon C,,H,,Cl, Bomylchlorid (IOIO) (001) [OO - I] [loo] II,24 IO,39 -7,6** 51 Bra 1 (o-Pinenhydrochlorid)

139 GJfWh C,,H,,O, n-Borneo1 (Borneo- (IOTO) (001) [OO. I] [loo] II,24 IO,25 -8,8** 51 Bra I campher)

140 ‘G&h C1,,Hi80, Isoborneol (IOIO) [OO. I] Nadel- 51 Bra I achse

141 WW, C,,H,O,, Istizin (I, S-Di- (1010) (001) [OO.l] [loo] 5,62 5,76 2,5** 58 Bra hydroxy-9, 1 O-anthrachinon)

142 G%O, C,,H,NO,, Phthalanil (IOIO) [OO. I] Nadel- 58 Bra achse

143 WW, C,,H,,NO,, 4Nitrostilben (1010) (010) [OO * I] [OOI] II,24 IO,22 -g,l** 58 Bra 144 WW, C,,H,,, Stilben (trans-a, or’-Di- (1010) (001) [OO- 11 [OIO] 5,62 5,70 1,4** 58 Bra

phenylathylen) 145 G%O, C,,H,,O, Benzanthron yp (010) [OO * I] [OOI] 5,62 5,07 -9,8** 58 Bra 146 CBHSOS, Pyrogallol (f,2,3- CBr,, Tetrabromkohlenstoff P011 Nadel- 49 Wil

Trihydroxybenzol) achse 147 G&40, Ci,H,,Cl, Bornylchlorid (010) Pm Nadel- 51 Bra 1

(o-Pinenhydrochlorid) achse 148 G&O, C,,H,,O, D-Borneo1 (Borneo- (010) ’ [OW Nadel- 51 Bra I

campher) achse 149 WV& C,,H,,O, Isoborneol (001) row Nadel- 51 Bra 1.

\ achse 150 C,H,N, Anilin (Amino- C,,H,,, Triphenylmethan (100) (010) [OIOI [0011 15*99 15,20 -4,9 08 Bar

benzol) 151 C,H,NO, o-Aminophenol C,H,,BrN,02, Bromural (100) (010) [OOI] [OOI] 5,25 A08 - 3,2** 55 Bra

(Bromisovalerianylhamstoff) 152 C&NO, p-Aminophenol C,,H,,, Anthracen (100)

;::i; D101 r1001 &I9 8,56 4,5 49 Mer; 43 Wil4

153 C,H,NO,S . H,O, Sulfanil- C,HCl,O, Pentachlorphenol (010) [IO01 [1001 12,94 12,lO -6,5** 43 Wil-3 saure-monohydrat

154 C,H,N,, o-Phenylendiamin C,H,,BrN,O,, Bromural (001) (010) [OIO] [OOI] 15,oo f5,24 1,6** 55 Bra (Bromisovalerianylhamstoff)

155 W-W, C,H,O, + C,H,N,, (Benzoe- (001) (001) [0101 WlOl 7,50 7,48 -0,3** 5ONeu I saure + Phenylendiamin)

156 C,H,N,O,S, Sulfanilamid C,HCl,O, Pentachlorphenol (010) (001) [OOI] [OIO] 5,65 4,97 --12,0** 43 Wil3 157 C,H,,O,, Adipinsaure C,H,,BrN,O,, Bromural (100) (010) [OIO] [OOI] 5,16 5,08 -1,6** 55 Bra

(Bromisovalerianylharnstoff) 158 C,H,,BrN,O,, Bromural C,H,Cl,, Hexachloi-inden (010) I3011 Nadel- 55 Bra

(Bromisovalerianyl- achse harnstoff)

I I Phasen Ebenen .T I I Richtungen 1 Perioden [A] I Ab- I I ., i\r.

159 160 161 162 163

164

165

166

167 165 169

172

173

174

175

176

177 175 179

IS0

IS1

Wirt

C,H,,N20,S,, L-Cystin

C,H,O,* 3H,O, MekonsHure- trihydrat

C,H,O,.3 H,O

W&O, - 3 H,O

W&O,.3 H,O

C,H,O,-3&O

C,H,O, - 3 HP

C,H,O, ~3 H,O

C&O, - 3 H,O

W-W,. 3 H,O

C,H,O,~3H,O

C&O, - 3 H,O

C,H,BrO,, m-Brom- benzoesaure

C,H,NO,, p-Nitrobenzoe- s&n-e

C,H,N,O,, a-Trinitrotoluol

C,HSN,O, GWW,

Gast Wirt 1 Cast

C,H,CaO,, Whewellit (Calcium-oxalat-monohydrat)

C,H,N, Rnilin (hminobenzol)

&.Hr,N,O,S, Prontosil rubrum (4-Sulfonamido-2’, 4’-cli- aminoazobenzol)

C,,Hr,N,, o-Methylazobenzol

C H N m-Methylazobenzol 13 l?. 2,

C,,H,O,, Alizarin (I, 2-Di- hyclroxy-anthrachinon)

C,,H,,N,O,, 1,2-Diamino- anthrachinon

C,,H,,N,O,, 1,2,4-Triamino- anthrachinon

C,,H,,N,NaO,S, Helianthin (Methylorange)

C,,H,,N,, 4’-Amino- 3,2’-methylazobenzol

C,,H,rNO,, Methylamino- anthrachinon

&H,,N,O,, Methylrot (P-Dimethylaminoazo- benzol-o-carbonsaure)



C,,Hs, Naphthalin C,,Hr,O, DL-Campher C,,H,,Cl, Bornylchlorid

(D-Pinenhyclrochlorid) C,,H,,O, D-Borneo1 (Bomeo-

campher) C,,H,,, Acenaphthen

(0001) (100) (0001) (100)

(0001) (103)

\;;;;I ;:,:‘;;

(100)

(100)

(100)

(001) (001) (001) (001)

(100)

(100)

(100)

(100) (001)

(100) (010)

(100) (Old)

(100) (010)

(001) (010)

(100) (001) (100) (0001) (100) (001)

(100) (001)

(100) (010)

A.-- \Virt

[IO.01 [Zl .0] [10.0] [21 .O] [OIOI

[OW

row

row

lB101 [1001 [OIOI

WOI

[0101

[OOI]

[OIOI

lmo1

[0101

[0101

ro101 [0101 [0011

roo11

PW

Gast -I- roo11 LOI 01 c3011 [CHO]

[1001

Naclel- achse

Nadel- achse

Nadel- achse [IW WOI Naclel- achse

Nadel- achse

Naclel- achse [IO01

row

[1001

row

lm11

[OIOI [12.0]

[I101

[I101

row

Wirt Gast

IO,54 10.11 -687 28.17 29,14 3,4 21,6S 21,22 -2.1 2%17 29.14 3,4 16,OO 15,54 -1,o**

64,00 63,00 -I,6 75.00 77.40 -0,s

12,96 13,00 0,3

16,00 15,SO -1,3*

16.00 16,90 5,6

4.73 530s 7>4+*

5807 5,OS 0,2**

6,09 6,00 -1,5** 6,09 6,17 1,3**

IS,03 14,6S -2,x**

IS,03 14,50 -3,5**

IS,03 14,46 -3,s

wercnung %

I LlL

68Lon2 68 Lon 2 68 Lon 2 68Lon2

, 49 Mer: 43 Neu 5

49 Mer, 43 Neu 5

49 Mer; 43 Neu 5

49 Mer

43 Neu 5 43 Neu 5 49 Mer; 43 Neu 5

49 Mer; 43 Net4 5

49 Mer; 43 Neu 5

43 Neu 5

49 Mer; 43 Neu 5

50 Neu 1; 49 Mer; 43 Neu 5

55 Bra

55 Bra

50 Neu 1 51 Bra 1 51 Bra I

51 Bra 1

50 Neu 1

NT- Phases I Planes Directions Periods [A]

c. , I n- C.-i I TX-’ C.-L I n- Misfit RnC

C;H,&, Trimethylolathan

C,H,,BrN,O,, Bromural (Bromisovalerianylharnstoff)

C,,H,,O, DL-Campher C,,H,,Cl, Bornylchlorid

(o-Pinenhydrochlorid) C,,H,,O, D-Borneo1 (Borneo-

campher) C,,H,,O, Isobomeol .

55 Bra

51 Bra I 51 Bra I

187

188 51 Bra I

189 C,H,,O,, Trimethylolathan 49 W‘il

190 55 Bra

191 192

51 Bra I 51 Bra I

IA”. I

3UD- Jde- 3uLP UC.- 3uo- Ye- .&.“A. Substrate Deposit strate posit strate posit strate posit %

182 I C,H,N,O,, wTrinitrotoluo1 C,.H,,. Fluoren (100) ~(001) [OIOI [OIOI 6,09 5,72 -6,1 I 50 Neu 1 183 C,H,O,, BenzoesHure (100) [Ol O] Nadel- 49 Wil -

achse 184 GH,Oz (100) (010) D101 row 5918 5>08 - 1,9**

185 GH@~ (100) (0001) [0101 [IO.01 15,54 14,28 -8,1** 186 VW, (fO0) (001) w101 [I 001 10,36 10,39 0,3**

VW, (100) (001) i3101 [I 001 10236 1025 -1,1** 51 Bra 1

W&O, (100) w101 Nadel- achse

C,H,O,, Salicylsaure (010) COO~I Nadel- achse

VW, (010) (010) [Odl] DO11 4992 5,08 3,3**

WW, (010) (0001) COOlI [lO.O] f4,76 14,28 -3,3** GJ&OI (010) (001) I3011 [IO01 9,84 IO,39 5,6**

GH,Os (010) (001) ww [IO01 9,84 IO,25 4,2** 51 Bra I

WW, (010) [OOII Nadel- 51 Bra I achse

C,H,NO, Benzamid (100) (010) [0101 row 5,Ol 5,08 1,4** 55 Bra

C,H,NO (100) (0001) [lO.O] IS,03 14,28 - 5,0** 51 Bra I C,H,NO (100) (001) ;::i; r1001 IO,02 IO,39 3,7** 51 Bra I

C,H,NO (fO0) (001) ro101 [1001 IO,02 1025 2,3** 51 Bra 1

C,H,NO (100) mo1 Nadel- 51 Bra I achse

(100) (100) [0101 [OIOI 5,01 4,98 -0,6* 5ONeu I

(OiO) (91q) iwl row 15,26 15924 -0,1** 55 Bra

(010) (001) ww [IO01 7,62 6,10 -t&9** 49 Wil

(001) (oto) PO1 row 4,98 5,08 2,0** 55 Bra

193

194

C,H,,BrN,02, Bromural (Bromisovalerianylharnstoff)


(o-Pinenhydrochlorid) C,,H,,O, D-Borneo1 (Borneo-

campher) C,,H,,O, Isobomedl

195

196 197

198

199

200



(D-Pinenhydrochlorid) C,,H,,O, D-Borneo1 (Bomeo-

campher) C,,H,,O, Isoborneol

C,H,NO

201

202

C,H,NO,, o-Aminobenzoe- saure

C,H,NO,, $-Aminobenzoe- saure

C,H,NO,, Salicylamid

C,H,NO + C,H,O,, (Benzamid + Resorcin)


C,H,,O,, Pentaerythrit

203 C,H,,BrN,O, Bromural (Bromisovalerianylhamstoff)

Phasen Ebenen NT.. I I I Richtungen 1 Perioden [Al T :L 1.1.

204 205

206

207

20s

209

210

211

212

213

214

215 216

217

218

219

220

221 222 223 224 225

Wirt Gast

C,H,NO,, Salicylamid C,H,NOa

C,H,NO,

C,H,N,O, Phenylhamstoff

C,H,N,O,, I,& 4-Nitro- toluidin

C,H,N,O,

WW,O,

W-W,O,

C,H,O,, 2,6-Dimethylpyron

C,H,,O,S,. Sulfonal (2, %Bis- (Mhylsulfon)-propan)

C,H,N,, P-Dinitrilbenzol

C,H,O,, Phthalsjiure C&W,

C&C@,

GJW,

C,,H,,O, DL-Campher C,,H,,O, o-Romeo1 (Bomeo-


C,H,,BrN,02, Bromural (Bromisovalerianylhamstoff)

Ci,H,,O, Ix-Campher

C,,Hi,Cl, Bomylchlorid (o-Pinenhydrochlorid)


C,,H,,O, Isobomeol




C,H,N, Anilin (hminobenzol) C,,H,,N,O,S, Prontosil rubrum

(4-Sulfonamido-2’,4’-diaminoazobenzol)

Cr,H,,N,, o-Methylazobenzol

Cr,H,,N,, m-Methylazobenzol

C1,H,,N,OZ, Methylrot (+Dimethylaminoazobenzol- o-carbonslure)

C,,H&lN,S - 4H,O, Mcthylenblau-tetrahydrat

wirt

(010) (010)

(010)

(010)

(001)

(001)

(001)

(001)

(001)

(001)

(001)

(001) (001)

(001)

(001)

(110)

(110)

(100) (011)

[it;; (120)

Gast

(0001) (001)

(010)

(0001)

(001)

(001)

(010)

(010)

(010)

(100)

(110)

(110)

1 Wirt

w1 [OOI]

[OOII

m11

[0101

IPOI

ro101

[0101

ro101

ro101

PI01

WOI ro101

LOI 01

PI 01

row

[TIO]

Gast

[lO.O]

[IO01

Naclel- achsc

Nadel- achse [12.0]

r1001

iI

Nadel- achse iI

Nadel- achse

Nadel- achse [OIOI Nadel- achse

Nadel- achse

Nadel- achse PO11

[1101

Wirt

14,94 9.96

9215

9,15

9,15

14,42

504

.9,52 9.30 -283

II,34

9,52 9,30 -283 f7,14 17.07 -0,4 10,os 9869 -3,9 17,47 17,07 --2,3

9.53 9.69 I.7

Gast

14,28 IO,25

926

IO,39

IO,25

IL24

533

II,30

-4,4** 2,9**

1,2**

13,6**

12,0**

5.7**

5,s

-0,4

51 Bva 1 5I Bra I

51 Bra I

55 Bra

51 Bra I

51 Bra 1

51 Bra 1

51 Bra I

55 Bva

55 Bra

55 Bra

49Mer;42Neu 3 50hTeu 1: 49 Mer: 42 Neu 3

49 Mer: 42 hreu 3

49 Mer: 42 Neu 3

59 Kle 3; 56 Neu; 5OhTeu 1; 49 Mer; 41 Neu;40Neu 59 Kle 3; 5G hleu; 50 hTeu I; 49 Mer; 41 Neu;40Neu 50Neu I; 40Neu 41Neu; 40Neu 41 hTeu:40 Neu 41 Neu: 40Neu 41 Neu: 40 Neu

Phases Planes Directions Periods [A] No. Sub- De- Sub- Misfit


% Ref.


226 C,H,BrNO, P-Bromacet- C,H,,BrN,O, Bromural (010) (010) [OOI] [OOI] 20,Ol 20,32 1,5** 55 Bra anilid (Bromisovalerianylharnstoff)

227 C,H,O,, Anissaure (4-Meth- C,H,,BrN,O,, Bromural (100) (010) [OIO] [OOI] 11,oo lo,16 -7,6** 55 Bra oxybenzoesaure) (Bromisovalerianylharnstoff)

228 C,H,NO, Acetanilid C,H,,BrN,O,, Bromural (010) (010) [OOI] [001] 1596 15.24 -4,5** 55 Bra (Bromisovalerianylharnstoff)

229 C,H,,N,O,*H,O, Coffein- C6H,iBrN,0, Bromural (010) (010) [OOI] [OOI] 1598 1524 -4,o** 55 Bra monohydrat (1,3,7-Tri- (Bromisovalerianylharnstoff) methyl-xanthin-monohydrat)

230 C,H,,N,O,, Verona1 (5, $Di- C,H,,BrN,O, Bromural (100) (010) [OOI] LOO11 9,80 lo,16 3,7** 55 Bra athylbarbitursaure) (Bromisovalerianylharnstoff)

231 (C,H,,NO,),, Chitin (Poly- C,HCl,O, Pentachlorphenol (001) (001) w101 w101 IO,32 9,94 -3,7** 57Will 2-acetamido-%desoxy- D-glucan)

232 C,H,,O,, Korksaure C,H,,BrN,O,, Bromural (100) (010) [OIO] [OOI] 5,06 5.08 0,4** 55 Bra (Bromisovalerianylharnstoff)

233 C,H,NO, S-Hydroxy- C,H,,BrN,O,, Bromural (010) (010) [OOI] [OOI] f4,58 1524 4,5** 55 Bra chinolin (Bromisovalerianylharnstoff)

234 C,H,O,, trams-Zimtsaure C,H,,BrN,O,, Bromural (010) (010) [OOI] [OOI] 5,65 5>08 -10,1** 55 Bka (Bromisovalerianylharnstoff)

235 C,H,,NO, o-Acetotoluidin C,,H,,O, DL-Campher (010) WI Nadel- 51. Bra I achse

236 ‘G&PO C,,H,,Cl, Bornylchlorid (010) DW Nadel- 51 Bra I (o-Pinenhydrochlorid)

237 achse

WLNO C,,H,,O, D-Borneo1 (Borneo- (010) [OW Nadel- 51 Bra I campher) achse

238 C,H,,NO C,,H,,O, Isoborneol (010) lm11 Nadel- 51 Bra I

239 achse

C,H,,NO, +Acetotoluidin C,H,,BrN,O,, Bromural (100) (010) [OOl] [OOI] 15720 1524 0,3** 55 Bra (Bromisovalerianylharnstoff)

240 G%,NO C,,H,,O, DL-Campher (100) (0001) [OOI] [lO*O] 7,60 7,14 -&I** 51 Bra I 241 CJLNO C,,H,,Cl, Bornylchlorid (100) (001) roo11 [I101 7,60 7,34 -3,4** 51 Bra I

(o-Pinenhydrochlorid) 242 WLNO C,,H,,O, n-Borneo1 (Borneo- (100) (001) [OOI] [IIO] -7,60 725 -4,6** 51 Bra I

campher) 243 G%NO C,,H,,O, Isoborneol (100) Pw Nadel- 51 Bra 1

244 achse

C,H,,N,02, +&thoxy- C,H,,BrN,O,, Bromural (010) (010) [OIO] Nadel- 55 Bra phenylharnstoff (Bromisovalerianylharnstoff) achse

Nr.

245,

246

247

245

249

2.50

251

252

253

254

255

256 257

25s

259

260 261

262

263

264

I Phascn Ebenen Richtungcn

Wirt Gast Wirt

C,,Cl,O,, Hexachlor- naphthochinon

G&4@*

C,,H,O, P-Saphthol

Ci,H,N, B-Naphthylamin

G&w?, C,,H,,, Fluoren

G&wa C,,H,,, Anthracen

~10~4302 C,,H,,, Phenanthren

cIclCl,O* C&H,,, Pyren

C,,H,N,O,, I, S-Dinitro- naphthalin

C,,H80, a-Naphthol

C,,H,O, p-Naphthol

C,,,H,N, a-Naphthylamin C,,H,,NO,, Phenacetin

(4-Xthoxyacetanilid) CJ-L, Durol (I,% 4,5-

Tetramethylbenzol) C,,H,,BrO, S-Brom-n-

campher C,,H,,BrO C,,H,,BrO

G,CW, +WS,N,, (He=- chlomaphthochinon + Benzidin)


C,,H,N, Acridin (Dibenzo- pyridin)

C&&O,, Tetrachlor- phthalsaureanhydrid

C,,H,S, Acridin (Dibenzo- pyridin)

C,H,O,, n-Hydrochinon C,H,,BrN,O,, Bromural

(Bromisovalerianylhamstoff) CBr,, Tetrabromkohlenstoff

GoH15Br0

C,,H,,N, Pervitin

C,,H,,O,, D-Camphersaure

C,HI,BrN,O,, Bromural (Bromisovalerianylhamstoff)

C,,Hi,O, DL-Campher C,,H,,O, D-Borneo1 (Bomeo-

campher) Ci,H,,O, Isobomeol

C,Hr,BrN,O,, Bromural (Bromisovalerianylhamstoff)

C,H,lBrN,O,, Bromural (Bromisovalerianylhamstoff)

(010)

(010)

(010)

(010)

(010)

(010)

(010)

(010)

(001)

(001)

(001)

[El;

(100)

(001)

[:::;

(001)

(010)

(010)

(010)

(010)

(100)

(010)

(ioio) (010)

(100)

(010)

(0001) (001)

Wirt --

[0011

WI

roo11

roo11

[OOII

wo11

WI

m11

WI

ro101

PI 01

[IO01 WI

Kw

[1001

[IO01 [1001

r1001

ml

Pm

Gast

Nadel- achse Sadel- achse Nadel- achse Nadel- achse Nadel- achse Nadel- achse Nadel- achse

roof1

ml1

PI 01

lwl

PI 01

m11

[IO-O]

[~I01

Nadel- achse Nadel- achse Naclel- achse

Perioden [A] I \Virt Gast

593s 508

13,oo 12,14

5,94 5,s3

5,94 6,07

12,oo II.24 IS,64 IS,24

7803 6,S2

15,14 15824

7,35 7,14 7,35 7,3O

hb- weichung

%

- 5,6**

-6,6**

- i,9**

22

-693 - 2,6**

-3,o**

0,7**

-2,96* -0,7**

Lit.

49 Mer

49 Mer

50 Neu 1; 49 Mer

50 Neu I: 49 Mer

50 Neu 1; 49 Mer

50 Neu 1; 49 Mer

50 Neu 1: 49 Mer

55 Bra

50 hTeu 1

47 Wil 1

50 Neu 1

50 Neu 1 55 Bra

49 Wil

55 Bra

51 Bra 1 51 Bra 1

51 Bra 1

55 Bra

55 Bra

XT-

265

267

268

269 C,,H,,N,, p-Aminoazobenzol

270

271 272 273 274 275

276

277

278

279 280 281 282 283 284 285 286

287

Phases

Substrate I I

Planes ^. -

1 Directions 1 Periods p] I RiTiqfi+ I ^I ^_ Deposit

Xlb- He- Sub- Ue- Sub- Ue- strate posit strate posit strate posit

C,,H,N,, Phenazin (Di- benzopyrazin)

C,,H,N,O, Phenazin-N-oxid (N-Oxyphenazin)

C,,H,N, Carbazol (Dibenzo- pyrrol)

C12HI,,, Acenaphthen

C,,H,,N,O,, Luminal (Athyl-phenylbarbitur- saure)

(CldLNA)n, Nylon-6 6 G,HmN,Wn G,%,NOzh G&LN,%)n C,,H,,O,,, Rohrzucker

(Saccharose) WL,%


C,H,,BrN,02, Bromural (Bromisovalerianylharnstoff)

C,H,rBrN,O,, Bromural (Bromisovalerianylharnstoff)


C,HIIBrN,O,, Bromural (Bromisovalerianylharnstoff)


C,HBr,O, Pentabromphenol C,H,Cl,N, Pentachloranilin C,HCl,O, Pentachlorphenol C,,H,O,, Anthrachinon CBr,, Tetrabromkohlenstoff

C,H,O,, b-Bernsteinsaure

C&l,, Hexachlorbenzol

C,HBr,O, Pentabromphenol

C,HCI,O, B-Pentachlorphenol

C,H,Cl,N, Pentachlor- aminobenzol

C,H,O,, p-Benzochinon

C,H,NO,, j+Nitrophenol

C,H,O,, a-Hydrochinon (C,H,,NO),, Nylon-6

’ (100)

(001)

(010)

(010)

(100)

(010)

(001) (001) (001) (001) (100)

(100)

(100)

(100)

(100) (100) (100) (100) (100) (100) (100) (100)

(100)

(100). (100)

(010)

(010)

(010)

(OIQ),

(010)

(010)

(001) (100) (001) (010) (001)

(100)

(100)

(001)

g:; (001)

g:; (001)

;“:A; 1

(100)

(IOiO) (010)

[OIOI

PJ101

[OOII

Wll

WOI

[0011

[loo]

[0101 [1001 P101 [0011

roo11

[OIOI

Wll

w101 [0011 [OIOI wo11 LO101 PO11 [OIOI [OOI]

PJo11

[OIOI WOI

[oolj

[OOII

[OOII 14,40 15.24

[OIOI [0011 [0101 wo11 P101

PO11

KJlOl

ImOl

r1001 [OIOI [1001 [OIOI [I901 mo1 [I 001 ro101

[0011

[OO * I] mw

-5906 5x08 0,4** 55 Bra

4,60 5.08 10,4**

~ -11,8** I

55 Bra

5.76 5.08

14,46 IS,24

5.60 5,08

4,90 4,04 -17,6 5,40 5,43 0,6** 4,90 4,97 1,4

16,20 I'S,80 -2,5** 7,77 6,82 -12,2**

7,77

8>69

7,77

7,61

8,88

-2,l

2.2

7,72 -0.6

8,69 7,77 8>69 7,77 8.69 7,77 8,69 7,77

8,10 -6,8 8,10 4,2 8,50 -2,2 7,68 -I,2

, 600 -7,9 7,66 -I,4 8,10 -6,8 6,79 -1236

7,77 7,58 -2.4

17,38 16,86 -3,o** 8,69 8,01 -7,8**

%

I 5.4**

~ -9>3**

5,8**

Ker.

55 Bra

55 Bra

55 Bra

55 Bra

57WilI 57WilI 64 Sei; 57 Wil 1 57W‘ill 49 Wil

50 Neu I; 49 Mer; 48Neu2 50 Neu I: 49 Mer; 48Neu2 50 Neh I; 49 Mer; 48Neu2 50 Neu I 50Neu I 5ONeu I 50Neu1;43Wil3 50 Neu 1; 43 Wil3 50Neu I 5ONezl I 50 Neu I; 49 Mer; 48 Neu 2 50 Neu I; 49 Mer; 48Neu2 49 Mer; 43 Neu I 67 Wil; 63 Wil

Xi-.

290

291 292

293 294 295

296

297 298 299 300 301 302 303 304 305 306 307 30s 309

310 311 312

313

314

315

316

317

31s


Wirt Gast Wirt Gast

C,,H,,O,,, Rohrzucker (Saccharose)

C,&Wu W-LOn

GJ%,On

WS&

WS&

C,&L&n

WWAI

G,‘&@II

C&&II

W%@II

C&m011

GJLOn

GJ-LOn

CI,%OII

W%@II

C,,H,N, Rcridin (Dibenzo- pyriclin)

C,,H,N

. . C,,H,iNO, Benzamhcl (Benzoesaure-anilid)

C13H,,N,0, Carbanilid (X, S’-Diphenylhamstoff)


C,I-I,NO?, p-hminobenzoesaure

C,H,XO,, Isatin C,H,N, j-Methyl-Indol

C,,H,O,, B-Naphthochinon

C,,H,N02, 1 -Nitronaphthalin

C,,H,O,, 1,4-Dihydroxy- naphthalin

C,,H,O,, Rnthrachinon

Ci,H,O,, I-Hydroxy- anthrachinon

&H,O,, Alizarin (I, 2-Di- hydroxy-anthrachinon)

C,,H,O,, 1,4-Dihydroxy- anthrachinon

C,,H,O,, Purpurin (1,2,4-Tri- hyclroxy-9, 1 O-anthrachinon)

C,,H,O,, I, 2,s. S-Tetra- hydroxyanthrachinon

C,,H,,N,O,, 1,4-Diamino- anthrachinon

C,,H,,O, Anthranol

C,,H,,O, I-Hydroxyanthracen

C,.H,,O,, Fluorescein (2 (3,6-Di hyclroxyxanthyl)benzoesaure

C,H,O,, a-Hyclrochinon



C,H,,RrN,O,, Dromural (Rron~isovalerinnylharustoff)

C,H,,O,, Pentacrythrit

Wirt --

[OO~I

;::A;

Kw [0101 WI

rooll

;:?A;

;::A; [0011 [O~OI I3011 l3~01 ww w101

;::A; [0011

;:A; [0101

PO11

row

roo11

[IO01

PO11

[O@Il

Gast Wirt Gast

Ab- weichung

%

[0101 7977 7,72 -0,6

[OOII Nadel- achse [1001 WOI [0011

7,77 7,77 0

7877 7.68 -I,2 8369 S,lO -6,s 7,77 7.72 -0,6

l-0011 15.54 14,40 -7.3

7,77 7,92 I,9 17,3S 19,70 1393

7.77 7,9O 1,7* 17,3S 19.70 13,3*

7,77 7.50 -3,s 17,3s 21 ,oo 20,s

7.77 9,60 23,6** 25.07 25,34 1,3**

7,77 6,73 -13.4 S,69 s,oo -7,9 7.77 7,95 2,3*

17,3S 19.75 13,6* 7.77 7,96 2.4

roo11 7.77 7,90 1,7* [IO01 17.3s 16,00 - 7.9* [IO01 5.69 S,60 -i,o*

Nadel- achse [00-l]

row

[f.w

roo11

[I101

6,07 5.62 -7,4

6,07 580s - 16,3**

II,02 IO,16 - 10,3**

9*07 10.16 12,0**

7,90 $63 9,2**

Perioden [A] Lit.

50 Neu 1; 49 Mer; 48 Neu 2 49 Mer; 48 New 2 50 Neu 1; 49 Mer: 48 Neu 2 50 Neu 1: 48 Neu 2 50 Neu I: 48 Neu I 50 Neu I; 49 Mer I; 48 Neu 2 50 Neu I; 48 Neu 2; 45 Neu 50 Neu 1: 48 Niu 2 50 Neu 1; 48 Neu 2 50 Neu 1; 48 h’eu 2 50 Neu 1 * 48 Neu 2 50 Neu 1;. 48 hreu 2 50 Neu 1: 48 Neu 2 48 hTeu 2 48 hTeu 2 50 lVeu I; 48 Neu 2 50 Neu I; 48 Neu 2 48 hreu 2 48 Neu 2 50 iVeu I; 48 hTet4 2

50 hTeu 1: 48 Neu 2 50 Neu 1: 48 Neu 2 50 hTeu I; 49 Mer; 48 Neu 2 50 Neu 1; 49 Mer; 48 Neu 2 50 hreu 1

55 Bra

55 Bra

55 Bra

49 wiz

Phases Planes No.

Directions Periods [A]


Deposit % Ref.


319 C,,H,O,, Alizarin (I, 2-Di- C,Hr,O,, Pentaerythrit (100) (001) [OOI] [IIO] hydroxyanthrachinon)

7,50 8,63 15,1** 49 Wil

32CI C,,H,O,, I, &Dihydroxy- C,H,,BrN,O,, Bromural (001) (010) [IO01 [OOl] 5,76 Lll,%** 9,10-anthrachinon (Istizin)

5,08 55 Bra (Bromisovalerianylharnstoff)

321 C,,H,NO,, Phthalanil C,H,,BrN,O,, Bromural (010) (010) [OOI] Nadel- 55 Bra (Bromisovalerianylharnstoff)

322 C,,H,,, Anthracen achse

CoHsNEOo, Hexogen (Cyclonit) (001) [OIOI Nadel- 58 Bra

323 C,&I, achse

C,H,BrO,, DL-Brom-Bernstein- (001) WOI Nadel- 58 Bra saure achse

324 ‘UT, G,H,N,O,, N, N’-Dimethyl- (001) D101 Nadel- 58 Bra oxamid

32.5 G&L, achse

C&1,0,, Chloranil (2,3,5,6- (001) (001) [OIO] [OIO] 6,04 5,78 Tetrachlor-p-benzochinon)

-4,3** 48 Wil

326 C&I, C&l,, Hexachlorbenzol (001) (001) [loo] [loo] 8>56 8,lO -5,4** 48 F%‘il , 327 C&m C,HCl,O, Pentachlorphenol (001) (001) [OIO] [loo] 12,08 12,lO 0,2** 48 Wil

328 C,,H,, C,H,BrNO,, p-Bromnitrobenzol (001) (010) I31 01 [1001 6,04 5,92 -2,o** 58 Bra

329 G&m C,H,N,O,, P-Nitroanilin (001) (100) [OIO] [OIO] 6,04 6,07 0,5** 58 Bra 330 C,,H,, C,H,NO, $-Aminophenol (001) (100) [loo] [OIO] 8,56 8,19 -4,3** 48 Wil

331 CuH,, C,H1,BrN,O,, Bromural (001) (010) [OIOI [loo] 12,08 II,12 - 7,9** 58 Bra (Bromisovalerianylharnstoff)

332 G&L, C,H,NO, Benzamid (001) (100) [OIO] [OO?] 6,04 5,59 -7,5** 58 Bra

333 C&m C,H,NO,, o-Aminobenzoesaure (001) (010) [OIO] [loo] 18,12 18,64 2,9** 58 Bra

334 C&I, C,H,BrNO, $-Bromacetanilid (001) (010) [OlO] [OOI] 6,04 6,67 10,4** 58 Bra

335 C&I, C,H,O,, Anissaure (4-Methoxy- (001) (100) re1001 roo11 8>56 7,94 benzoesaure)

- 7,2** 58 Bra

336 G&L, C,H,,N,O,, Verona1 (5,5-Di- (001) (010) [loo] [OOI] 8,56 9,80 14,5** 58 Bra athylbarbitursaure)

337 G&L C,Hi,O,, Korksaure (001) (100) [OIO] [OIO] 6,04 5,06 -16,2** 58 Bra

338 C&m ‘C,H,rNO, +Acetotoluidin (001) (100) [loci] [OOl] 8>56 7960 -11,2** 58 Bra 339 CM% C,,H,N, /?-Naphthylamin (001) (001) [OIO] [OIO] 6,04 6,00 -0,7** 48 Wil

340 C&,o C,,H,O,, Istizin (I, 8-Di- (001) (001) [OIO] [loo] 6,04 5,76 -4,6** 58 Bl?f hydroxy-9, I 0-anthrachinon)

341 GJ%o C,,H,NO,, Phthalanil (001) ro101 Nadel- 58 Bra achse

342 C&m &Hi,, Phenanthren (001) (001) [OIO] [OIO] 6,04 6,11 1,2** 55Bya

343 CM% Ci,H,,NO,, 4-Nitrostilben (001) (010) [loo] [loo] 8356 7,94 - 7,2** 58 Bra

ivr. Wirt Gast

344

345 C,,J% 346 W=h

347

348 349 350

351

352

353

354

355

356

357

358

359

360

361

362 363

364

365

Phasen

Cr,H,, Anthracen

C,,%

W-L,

WLl C,,H,,, Phenanthren

f2Ll

C&IO C&IO WLI GJSo

C,,Hm

C,,H,,NOL, 4-Nitrostilben

C,,H,,, Stilben (trans-a, a’- Diphenylathylen)

WL W-en

GA, C,,Hr,O, Benzanthron

Cr,H,,, 2,3-Benzofluoren

W-b,

C,,J%,

I

C,,H,,, Stilben (trans-a,a’-Di- ~ phenylathylen)

C,,Hr,O, Benzanthron C,,H,,, Hexaathylbenzol

C,,H,,, x-Octadecan

C,,H,,, Iz-Tetraeikosan (n-Tetracosan)

C,,H,,, n-Octaeikosan (n-Octacosan)

C&1,0, Perchlorindol

C,,H,,N,, Benzidin (Diamino- cliphenyl)

G,Hlo~ Pyren C,,H,,, Hexaathylbenzol C,,H,,, n-Octadecan C,,H,,, n-Tetraeikosan

(n-Tetracosan) C,,H,,, n-Octaeikosan

(n-Octacosan) C,HIIBrN,O,, Bromural

(Bromisovalerianylhamstoff) C,H,rBrN,O,, Bromural

(Bromisovalerianylhamstoff) C,H,,BrN,O, Bromural

(Bromisovalerianylhamstoff) C,,Hr,, Anthracen C,H,rBrN,O,, Bromural

(Bromisovalerianylhamstoff) C&1,0,, Chloranil (2,3,5,6-

Tetrachlor-$-benzochinon) C,Cl,, Hexachlorbenzol

C,H,N,O,, cw-Pikrinsaure

I Ebenen I Richtungen Perioden [A]

Wirt I

Gast Wirt I

Gast Wirt Gast I I I

(001) (001) [OIO] [OIO] 6,04 5,70

(001) (010) [OIO] [OOI] 6,04 5,07 (001) (100) [OIOJ [OOI) 6,04 6.10

(001)

(001) (001) (001)

~ (001)

(001)

~ (001)

(001)

(001)

(001)

(001)

(001)

(010)

(001)

(100)

(100) (010)

(010)

(010)

(@IO)

(100) (100) (001) (100)

(100)

(010)

(010)

(010)

(001) (010)

[1001

r~ool [IO01 [~~~I

r~ool

P~OI

ro101

i F.1001 1 WOI r1001 [1001

[I 001

Fw

[010-J

row

WI DO11

[0011

roo11

roo11

Peal l7,l2 IS,30 6,9**

r1w S,56 8.56 0** [IW S,56 9.64 12,6** [OIlI 8956 9,Ol 5,3**

58 Bra 58 Bra: 50 Neu I; 48 Wil 58 Bra: 50 hreu I; 48 WiL 55 Wil2 55 Wil2 55 Wil2

ro101 8356 9,90 15*7** 55 WiZ2

Nadel- achse

Nadel- achse PO11 l3~11 !I1 001 [OIlI

50 Neu 1; 47 Wil 1

48 Wil

St57 8,37 -2,3** 50 hTeu 1, 48 Wil 6,11 6,10 - 0,2** 50 Neu 1; 48 Wil

s,57 8,56 -0,1** 55 Wil2

5.57 9,Ol 5,1** 55 Wil2

WOI 5957 55 Wil2

lml 6807

9,90

5,OS

5808

15,5**

-16,3**

- 10,9**

1,2**

55 Bra

row 5.70 55 Bra

Km 25,ll 25,40 55 Bra

II1001 St37 5956 2,3** 50 hreu I; 48 Wil Mel 5,07 5908 0,2** 55 Bra

Nadel- achse

Naclel- achse

Nadel- achse

55 Bra

55 Bra

55 Bra

weicnung I

Llr. %

- 5,6** 58 Bra

-16,1** 1 .o**

366

No.

367

368

369

370

371

372

373

374 375

376

377

378

379

Substrate

Phases

Cr,Hr,, 2,3-Benzofluoren

C,,H,,O,, Formaldomedon

C,,H,,, Chrysen .( I, z-Benz0 phenanthren)

C,,H,,, Hexaathylbenzol

W%,

G&w C,,H,,N, o-Phenylacridin

C,,H,,, Triphenylmethan

,

Deposit

C,H,,BrN,O, Bromural (Bromisovalerianylhamstoff,

C,,H,O, ,&Naphthol

C,H,,BrN,O, Bromural (Bromisovalerianylharnstoff:

C&H,,, Naphthacen (2, j-Benz. anthracen)

C,H,,O,, Trimethylolathan

C,Cl,O,, Chloranil (2,3,5,6- Tetrachlor+benzochinon)


C,,H,,, Phenanthren C,Hr,BrN,O,, Bromural

(Bromisovalerianylhamstoff) C,,H,, +C,H,S, (Triphenyl-

methan + Thiophen) Cr,H,, + C,H,N, (Trrphenyl-

methan + Pyrrol) C,,H,, + C,H,, (Triphenyl-

methan + Benzol) C,,H,, + C,H,N, (Triphenyl-

methan + Anilin)

Planes I Directions 1 Periods [A] Sub-

stratt

(010)

(010)

(010)

(001)

(100)

(100)

(100)

(100) (010)

(010)

(010)

(010)

(010)

De- posit

(010)

(010)

(001)

(001)

(010)

(001) (010)

(010)

(010)

(010)

(010)


Pw

PO11

DO11

r.0101

Doll

ww

[OIOI

Kw roo11

PO11

[0011

wo11

[OW

Nadel- achse

Nadel- achse

Nadel- achse DOI

Nadel- achse [0101

Nadel- achse ro101 Nadel- achse roo11

rwl

Poll

PO11

Sub- strate

6,18 6,14 -0,6

6,10 5,78

9,84 IO,16

6,10 6,11

- 5,2**

3.3**

02

7,60 7,58 -0,3*

7,60 7,65 0,7*

7,60 7959 -0,1*

;,60 7,62 0,3*

De- posit

Misfit %

Ref.

55Bra

55Bra

55Bra

34 Kri

49 wit?

48 Wil

55Bra

48 Wil 55Bra

50Neu 1

50Neu 1

5ONeu I

5ONeu I

144 G Literatur

1836 Fun 84 Brc 86 Hilt 93 Ret 99 GoI

02 Il’flI 03 lullf 04 Gmr 08 Bnr 08 ll'zd 09 Joh

1 I Joh II Kre 13 Mm 15 Ad 15 Leh 16 Gra 17Gm

21 Gro 25 Gnu 25 Joh 27 P/e 27 Roz 28 Ro) 29 Gri 29 Gnr 30 hTen 30 Set 30 spn

31 so

32 Bur 32 Gnu 32 Roy I 32 Roy 2

33 Bun 33 Fin I 33 Fin 2 33 Fri 33 Hoc 33 Pri 33 Roy I 33 Roy 2 33 Roy 3

3-1 B.ur 34 Fiv 34 Kri 34 Mel1

35 K7tr 35 Los 35 Rot, 35 SeI 35 Sfr 35 Ynv1

36 Bru 36 Brrr 36 Cor 36 Eln

6 Literatur - References Frankenheim, L. RI.: Pogg. Ann. 37 (lS36) 516. Bcckc, F.: Tschermaks hlincral. Petrog. hlitt. 6 (1884) 237. Hintzc, C. : 2. Krist. 11 (ISSG) 606. Retgers, I. \\‘.: Z. Physik. Chcm. 12 (lSp3) 5S3. Goldschmidt, V. : 2. Krist. 31 (I S99) 46s.

WaIlerant, F.: Bull. Sot. Franc. Mineral. Crist. 25 (1902) 180. Mucgge, 0.: Neues Jahrb. Mineral. BB. XVI (1903) 335. Gaubert, P.: Bull. Sot. Franc. hlinerai. Crist. 27 (1904) 222. Barker, T. H.: 2. Krist. 45 (190s) 1. Wulff, G.: Z. Krist. 45 (190s) 335. Johnsen, A.: Zentr. Mineral. 1909, 168.

Johnsen, A.: Zentr. Mineral. 1911, 369. Kreutz, S.: 2. Krist. 48 (1911) lS3. hIauguin, M.: Compt. Rend. 156 (1913) 1246. Andersen, 0.: Am. J. Sci. 40 (1915) 364. Lehmann, 0.: News Jahrb. Mineral. II (1915) 109. Grandjean, F.: Bull. Sot. Franc. hlineral. Crist. 39 (1916) 164. Grandjean, F.: Bull. Sot. Franc. Mineral. Crist. 40 (1917) 69.

Gross, R., N. Gross: Neues Jahrb. Mineral. BB. XLVIII (1923) i 13. Gaubcrt, P.: Compt. Rend. 180 (1925) 3% Johnsen, A.: Zentr. Mineral. A 1925, 346. Pfeiffer, P.: Org. Molekiil-Verb., 2. Aufl., 1927. Rozen, Z.: Kosmos. Lwov. Polen 1927, 193. Royer, L.: Bull. Sot. Franc. Mineral. Crist. 51 (1928) 7. Grimm, H. G.: Naturwissenschaften 17 (1929) 535. Gruner, J. U’.: Am. Mineralogist 14 (1929) 227. Neuhaus, A.: Chcm. Erde 5 (1930) 530. Settele, RI.: News Jahrb. Mineral. BB. 61, Abt. A (1930) 227. Spangenberg, K., A. Neuhaus: Chem. Erde 5 (1930) 437.

Sloat, C. A., A. C. Menzies: J. Phys. Chcm. 35 (1931) 2005.

Buckley, H. E.: Z. Krist. 82 (1932) 285. Gaubcrt, P.: Compt. Rend. 192 (1932) 965. Royer, L. ; Compt. Rend. 194 (1932) 620. Roycr, L.: Compt. Rend. 194 (1932) IOSS.

Bunn, C. W.: Proc. Roy. Sot. (London) Ser. A 141 (1933) 567. Finch, G. I., A. G. Quarrel: Nature 131 (1933) 877. Finch, G. I., A. G. Quarrel: Proc. Roy. Sot. (London) Ser. A 141 (1933) 39s. Fricdcl, G.: Compt. Rend. 196 (1933) 2S4. Hocart, R.: Compt. Rend. 196 (1933) 1234. Prins, J. A.: Z. Krist. 86 (1933) 301. Roycr, L.: Compt. Rend. 196 (1933) 2S2. Royer, L.: Compt. Rend. 196 (1933) 709. Royer, L.: Compt. Rend. 196 (1933) 552.

Buckley, E.: Z. Krist. 88 (1934) 245. Finch, G. I., A. G. Quarrel: Proc. Phys. Sot. (London) 46 (1934) 148. Krishman, K. S., P. K. Seshan: Z. Krist. 89 (1934) 53s. hIeh1, R. I;., F. L. hlaccandless, F. N. Rhines: Nature 134 (1934) 1009.

Kurz, W. : Z. Krist. 92 (1935) 40s. Lassen, H., L. Brucck: Ann. Physik 22 (1935) 65. Roycr, L.: Compt. Rend. 200 (1935) 567. Seifcrt, H.: Fortschr. Mineral. 19 (1935) 103. Steinhcil, A.: Ann. Physik 19 (1935) 465. Yamaguti, T.: Proc. Phys. Math. Sot. Japan 17 (1935) 443.

Brucck, I,.: Ann. Physik 26 (1936) 233. Burgers, \\‘., J. von Ann&l: Physica 3 (1936) 1057. Cochranc, \V.: Proc. Phys. Sot. (London) 48 (1936) 723. Elam, C. I;.: Trans. Faraday Sot. 32 (1936) 1604.

Gebhardt /Neuhaus

6 References 145

36 Fin 36 Kre 36 Meh 36 Roy 36 Sei

37 Fin 37 Hei 37 Nel 37 Neu 1 37Neu 2 37 Roy 37 Rue 37Sei I 37 Sei 2 37 Thi

38 Men 38 Moo 38 Neu 38 Sei 38 Wil

39 Bui 39 Bun 39 Ess 39 For 39 Got 39 Kle 39 Neu 39 Ros 39 Roy 39 Sei 39 Yam

40 Her 40 Neu 40 Thi I 40 Thi 2 40 Uye

40 Wil I 40 Wil2

41 And 41 Arb 41 Neu 41 Shi 41 Usm 41 Uye 41 Wil 41 Yam

42 Arb 42 Boe 42 Has 42 Hit 42 Mah 42 Neu I 42 Neu 2 42 Neu 3 42 Oli 42 Sch I 42 Sch 2

43 Neu I 43 Neu 2 43 Neu 3

~ Finch, G. J., Ch. Sun: Trans. Faraday Sot. 32 (1936) 8.52. Kreutzwald, A.: Neues Jahrb. Mineral. BB. 70 Abt. A (1936) 234. Mehl, R. F., F. L. MacCandless, F. N. Rhines: Nature 137 (1936) 702. Royer, L.: Compt. Rend. 202 (1936) 1687. Seifert, H. : Fortschr. Mineral. 20 (1936) 324.

. Finch, R. H., H. Wilman: Ergeb. Exakt. Naturw. 16 (1937) 353. Heintze, W.: 2. Krist. 97 (1937) 241. Nelson, H. R.: Nature 139 (1937) 30. Neuhaus, A.: 2. Krist. 97 (1937) 28. Neuhaus, A.: 2. Krist. 97 (1937) 112. Royer, L. : Compt. Rend. 205 (1937) 1418. Ruediger, 0. : Ann. Physik 30 (1937) 505. Seifert, H. : Fortschr. Mineral. 22 (1937) 158. Seifert, H. : 2. Krist. 96 (193 7) 111. Thiessen, P., H. Schuetza: 2. Anorg. Allgem. Chem. 233 (1937) 35.

Menzer, G.: 2. Krist. A 99 (1938) 410. Moore, K. H.: Ann. Physik 33 (1938) 133. Neuhaus, A. : 2. Chem. Mineral., Petr., Geol., Bodenk. 12 (1938) 23. Seifert, H.: 2. Krist. 99 (1938) 16. Willems, J.: 2. Krist. A 100 (1938) 272.

Buinov, N., A. Komar, M. Zhuraleva, G. Chufarov: Zh. Tekhn. Fiz. 9 (1939) 1649. Bunn, C. W. : Trans. Faraday Sot. 35 (1939) 482. Essig, S.: Phys. Rev. 55 (1939) 229. Fordham, S., R. G. Khalsa: J, Chem. Sot. 1939, 406. Goche, O., H. Wilman: Proc. Phys. Sot. (London) 51 (1939)’ 625. Kleber, W.: Neues Jahrb. Min. BB. 75 Abt. A (1939) 72. Neuhaus, A.: 2. Krist. 101 (1939) 177. Rose, A. J.: Compt. Rend. 208 (1939) 1914. Royer, L.: Bull. Sot. Phys. France 427 (1939) 135. Seifert, H.: 2. Krist. 100 (1939) 120. Yamaguchi, S.: Sci. Papers Inst. Phys. Chem. Res. Tokyo 36 (1939) 463.

Hermann, W. : Siemens Werkstoff Sonderheft 1940, 188. Neuhaus, A.: 2. Krist. 103 (1940) 297. Thirsk, H. R., E. J. Whitmore: Trans. Faraday Sot. 36 (1940) 565. Thirsk, H. R., E. J. Whitmore: Trans. Faraday Sot. 36 (1940) 862. Uyeca, R., S. Takagi, H. Hagihara: Proc. Imp. Acad. Tokyo (heute: Proc. Japan Acad.)

16 (1940) 389. . Willems, J. : Kolloid-2. 90 (1940) 298. Wilman, H.: Proc. Phys. Sot. (London) 52 (1940) 323.

Anderson, B. W.: Phys. Rev. 59 (1941) 1034. Arbusov, M., G. Kurdjumov: J. Phys. Moskau 5 (1941) 101. Neuhaus, A.: Angew. Chem. 54 (1941) 527. Shirai, S.: Proc. Phys. Math. Sot. Japan 23 (1941) 914. Usmani, I. H.: Phil. Mag. 7 (1941) 89. Uyeca, R., S. Takagi, H. Hagihara: Proc. Phys. Math. Sot. Japan 23 (1941) 1049. Willems, J. : Naturwissenschaften 29 (1941) 319. Yamaguchi, S.: Sci. Papers Inst. Phys. Chem. Res. (Tokyo) 38 (1941).298.

Arbusov, M., G. Kurdjumov: J. Phys. (Moskau) 6 (1942) 163. Boettcher, A. : Kolloid-2. 100 (1942) 228. Hass, G. : Kolloid-2. 100 (1942) 230. Hitosi, I., H. Hagihara: Proc. Phys. Math. Sot. Japan 24 (1942) 762. Mahl, H.: Kolloid-Z. 100 (1942)‘219. Neuhaus, A.: Z. Krist. A 104 (1942) 197. Neuhaus, A.: Z. Krist. A 104 (1942) 401. Z. Physik. Chem. (Leipzig) A 191 (1942-43) 359.’ Oliver, D. A.: Phys. Rev. 61 (1942) 313. Schwab, G. M.: Z. Physik. Chem. (Leipzig) B 51 (1942) 245. Schwab, G. M.: Kolloid-Z. 101 (1942) 204.

Neuhaus, A.: Naturwissenschaften 31 (1943) 387. Neuhaus, A.: Z. Krist. A 105’(1943) 161. Neuhaus, A.: Neues Jahrb. Mineral. Monatsh. Abt. A 1943, 150.

1 Land&-Bkxtein, &xe Serie III/B

Gebhardt INeuhaus 10

146 6 Idteratur

43 iYe 4 43 Ncr1 5 43 SC11 * 43 Il’i? I 43 WiZ 2 43 Il’i? 3 43 Il’il 4 43 Ii'il 5 43 Ii’il 6 43 Ii’d 7 43 Il’il 8

44 Kor 44 nler 44 h’elc I 44 hTeu 2 44 SC11 44 Il’il

45 Hoc I 45 Hoc 2 45 h’ezr 45 Rnm 45 Wes

46 Bex 46 Dei 46 Hoc 46 ilIe) 46 nIi) 46 If’i?

47 Ben 47Dei I 47 Dei 2 47 Hns 47 illi) 47 i\‘eu 47 Rem 47 SC11 47 Slii 47 Ii’i? I 47 Wil2

48 Aclr 46 A nd 48 Dei 1 4s Dei 2 48 El1 48 Hub 48 Jan 48 Iiie 48 Kub 48 Arm 48 Itliw 48 Nell 1 48 hTeu 2 48 Ros 48 Roy I 48 Roy 2 48 SIG 46 Il’il

49 Ber 1 49 Ber 2 49 Bra 49 BUN

Neuhaus, A.: Neues Jahrb. Mineral. hlonatsh. Abt. A 1943, I@. Neuhaus, A.: 2. Physik. Chem. (Leipzig) A 192 (1943) 309. Schwab, G. RI. : Naturwissenschaften 31 (1943) 322. Willems, J.: Naturwissenschaftcn 31 (1943) 146. \Yillems, J.: Natunvissenschaftcn 31 (1943) 20s. \Villems, J. : Naturwissenschaften 31 (1943) 232. Willems, J.: Natunvissenschaftcn 31 (1943) 301. Willcms, J.: 2. Krist. 105 (1943) 53. . Willems, J.: 2. Krist. 105 (1943) 144. Willems, J.: 2. Krist. 105 (1943) 149. Willems, J.: 2. Krist. 105 (1943) 155.

KBnig, H. : Reichsber. Physik 1 (1944) 4. RIerwe, J. H. van dcr: Die Chemie (jetzt: Angcw. Chem.) 57 (1944) 29. Neuhaus, A. : Naturwissenschaften 32 (1944) 34. Neuhaus, A., W. No11 : Natunvisscnschaftcn 32 (1944) 76. Schwab, G. hl. : Naturwissenschaften 32 (1944) 32. Willems, J.: Ber. Deut. Chcm. Ges. (jetzt: Chcm. Ber.) 17 (1944) 17.

Hocart, R., A. hIathicu-Sicaad: Compt. Rend. 221 (1945) 237. Hocart, R., A. hlathieu-Sicaud: Compt. Rend. 221 (1945) 261. Ncuhans, A.: Ncues Jahrb. h’lincral. Monntsh. Abt. A 1945-48, 23. Ramdohr, P.: Ncucs Jahrb. hlincral. Monatsh. Abt. A 1945-48, 16. West, C. D. : J. Opt. Sot. Am. 35 (1945) 26.

Benard, J.: Bull. Sot. Chim. France 13 (1936) 511. D&ha, G.: Compt. Rend. 223 (1946) 1155. Hocart, R., A. hlathieu-Sicaud: Compt. Rend. 222 (1946) 966. hIenzc1, E.: Nachr. Akad. Wiss. GGttingcn, hlath.-Phys. Kl. 2 (1946) 91. hliyake, S.: Proc. Phys. Sot. Japan 1 (1946) 6. Willems, J., A. Giltgcs: Natunvissenschaften 33 (1946) 345.

Benard, J., J. Talbot: Compt. Rend. 225 (1947) 411. Deicha, G.: Bull. Sot. Franc. Mineral. Crist. 70 (1947) 177. Dcicha, G.: Bull. Sot. Franc. Mineral. Crist. 70 (1947) 318. Hass, G.: 2. Anorg. Chcm. 254 (1947) 96. hIiyake, S., hr. Kubo: J. Phys. Sot. Japan 2 (1947) 15. Neuhaus, -4.: Naturwissenschaften 34 (1947) 215. Ramdohr, P.: Bcitr. Mineral. Petrog. 1 (1947-49) 105. Schwab, G. M. : 2. Anorg. Chcm. 254 (1947) 234. Shirai, S.: J. Phys. Sot. Japan 2 (1947) 81. Willems, J.: 2. Naturforsch. 2b (1917) 89. Willems, J.: Fortschr. Mineral. 26 (1947) 126.

Acharya, H. K.: Ph. D. Thesis Univ. London 1948. Andruscenlco, N. K., V. V. Tjapkina P. D. Dankov: Dokl. Akad. Nauk SSSR 59 (1948) 1113.

D&ha, G.: Expcrientia 4 (194s) 67. D&ha, G.: Compt. Rend. 226 (194s) 412. Elleman, A. J., H. Wilman: Proc. Phys. Sot. (London) 61 (194s) 164. Hubcr, I<., B. Bicri: Helv. Phys. Acta 21 (194s) 375. Janulol-, K. I’.: Dokl. Akad. Nauk SSSR 62 (1948) 813. Kiefer, 31. C.,: Compt. Rend. 226 (191s) 1602. Kubo, hr., S. hliyake: J. Phys. Sot. Japan 3 (194s) 114. hIenzc1, E.: 2. Anorg. Chem. 256 (1945) 49. Miwa, M., ‘I’. Watanabe: J. Phys. Sot. Japan 3 (1948) 52. Neuhans, -4. : Natnnvissenschaften 35 (194s) 27. Neuhaus, A.: Z. Elektrochcm. Angem. Physik. Chcm. 52 (1948) 178. Rose, J.: Bull. Sot. Franc. Mineral. Crist. 71 (1948) 15. Royer, L.: Compt. Rend. 226 (1948) 95. Roycr, L.: Compt: Rend. 226 (194s) 262. Shimomura, Y. : J. Japan Inst. hletals (Sendai) 12 (1948) 9. \Villems, J.: Natunvisscnschaftcn 35 (194s) 375.

Berry, C. R.: Acta Cryst. 2 (1949) 393. Berry, C. R. : Bull. Am. Phys. Sot. 24 (1949) 27. Brandstgttcr, hl.: Mikrochim. Acta 34 (1949) 142. Bunn, C. W.: Discussions Faraday Sot. 5 (1949) 175.

Gebhardt lNeuhaus

6 References 147 ,

49Cas Castaing, R., A. Guinier: Compt. Rend. 229 (1949) 1146. 49 Dan Dankov, P. C., N. A. Sisako : Zh. Fiz. Khim. 23 (1949) 1031. 49 Dei Deicha, G.: Nature 164 (1949) 68. 49 El1 Elleman, A. J., H. Wilman: Proc. Phys. Sot. (London) 62 (1949) 344.’ 49 Ed Erlenmeyer, H., M. Mueller: Helv. Chim. Acta 32 (1949) 17. 49 Gli Gliszczynski, S. von: Neues Jahrb. Mineral. Monatsh. Abt. A 1949, 1. 49 Hoc Hocart, R., J. C. Monnier: Compt. Rend. 228 (1949) 1039. 49 Hon Honjo, G.: J. Phys. Sot. Japan 4 (1949) 330. 49Joh I Johnson, G. W.: Nucl. Sci. Abstr. 4 (1949) 569. 49 Joh 2 Johnson, G. W. : Nucl. Sci. Abstr. 4 (1949) 568. 49 Joh 3 Johnson, G. W. : Nucl. Sci. Abstr. 4 (1949) 960. 49 Men Menzel, E. : Ann. Physik 5 (1949) 163. 49 Mer Merwe, J. H. van der: Discussions Faraday Sot. 5 (1949) 201. 49 Neu I Neuhaus, A. : Fortschr. Mineral. 28 (1949) 58. 4PNeu2 Neuhaus, A. : Naturwissenschaften 36 (1949) 3 73. 49Rho 1 Rhodin, T. N. jr. : Discussions Faraday Sot. 5 (1949) 215. 49 Rho 2 Rhodin, T. N. jr.: J,. Metals 1 (1949) 371. 49 Tyi I Trillat, J. J., A. Lalceuf : J. Chim. Phys. 46 (1949) ;68. 49 Tri 2 Trillat, J. J., A. Laloeuf: Compt. Rend. 228 (1949) 81. 4PWil Willems, J. : Naturwissenschaften 36 (1949) 373.

50 Ber I Berry, C. R., R. L. Griffith: Acta Cryst. 3 (1950) 219. 50 Bev 2 Berry, C. R., R. L. Griffith: Phys. Rev. 78 (1950) 317. 5ocou Courtell, R. : Metaux (Corrosion-Ind.) 25 (1950) 188. 50 Eva Evans, D. M., H. Wilman: Proc. Phys. Sot. (London) A 63 (1950) 298. 50 Hoc Hocart, R., J. C. Monnier: Compt. Rend. 231 (1950) 240. 50 I20 Ito, T., H. Sawada: Acta Cryst. 3 (1950) 434. 50 Joh I Johnson, G. W.: J. Chem. Phys. 18 (1950) 154. 50 Joh 2 Johnson, G. W. : J. Appl. Phys. 21 (1950) 449. 50 Joh 3 Johnson, G. W.: J. Appl. Phys. 21 (1950) 1057. 50 Joh 4 Johnson, G. W.: Nature 166 (1950) 189. 50 Kai Kainuma, Y., R. Uyeda: J. Phys. Sot. Japan 5 (1950) 199. 50 Koe Koeppen, N. : Neues Jahrb. Mineral. Abhandl. 80 (1950) 343. 50 Leu Leu, K.: 2. Angew. Chem. 62 (1950) 514. 50Neu 1 Neuhbus, A.: Fortschr. Mineral. 29/30 (1950/51) 136. 5ONeu2 Neuhaus, A.: Fortschr. Mineral. 29/30 (1950/51) 18. 5ONeu3 Neuhaus, A., W. Noll: Naturwissenschaften 37 (1950) 374. 50 Pas Pashley, D. W.: Acta Cryst. 3 (1950) 163. 50 Rae I Raether, H. : J, Phys. Radium 11 (1950) 11. 50 Rae 2 Raether, H.: Compt. Rend. 231 (1950) 653. 50 Ric Richards, D. A.: Proc. Phys. Sot. (London) A 63 (1950) 852. 50 Roy 1 Royer, L.: Compt. Rend. 230 (1950) 369. 50 Roy 2 Royer, L.: Compt. Rend. 230 (1950) 665. 50 Roy 3 Royer, L.: Compt. Rend. 230 (1950) 1295. 50 Sch I Schulz, L. G. : Bull. Am. Phys. Sot. 25 (1950) 6. 50 Sch 2 Schulz, L. G.: Phys. Rev. 78 (1950) 638. 50 Thi Thirsk, H. R.: Proc. Phys. Sot. (London) B 63 (1950) 833. 50 vu1 Vultee, J. von: Fortschr. Mineral.‘29/30 (1950/51) 297. 50 Wil Willems, J. : Naturwissenschaften 37 (1950) 3 76. 50 Yan Yang, L.: J. Electrochem. Sot. 97 (1950) 91.

51 Bar Bardolle, J., J. Benard: Compt. Rend. 232 (1951) 231. 51 Ben Benard, J., J. Bardolle: Compt. Rend. 232 (1951) 2217. 51 Bla Blackman, M.: Proc. Phys. Sot. (London) A64 (1951) 942. 51 Bra I Brandstatter, M. : Naturwissenschaften 38 (1951) 525. 51 Bya 2 Brauer, G., H. Gradinger: Naturwissenschaften 38 (1951) 559. 51 Bru I Br6, L., M. K. Gharpurey: Proc. Phys. Sot. (London) A 64 (1951) 283. 51 BYU 2 Br6, L., K. G. Gharpurey: Anales Real Sot. Espan. Fis. Quim. (Madrid) A 47 (1951) 101. 51 Fra Frank, F. C.: Proc. Phys. Sot. (London) A 64 (1951) 941. 51 Fad Fuller, A. A.: Nature 168 (1951) 471. 51Gei Geisler, A. H., F. E. Steigert: J. Metals 3 (1951) 259. 51Gol Goldstaub, S., P. Michel: Compt Rend. 232 (1951) 1843. 51 Jan Janulov, K. P.: Dokl. Akad. Nauk SSSR 62 (1951) 813. 51 Joh Johnson, G. W.: J. Appl. Phys. 22 (1951) 797. 51 Kai Kainuma, Y.: J. Phys. Sot. Japan 6 (1951) 185.

Gebhardt /Neuhaus

14s 6 Literatur

51 Kal 5f Kim 51 LIlC 51 Pas 51 Rae 51 Roy 1 51 ROJ 2 51 Saf 51 Sch 1 51 SC11 2 51 Sch 3 51 Sch 4 51 Sn10 51 Sin 51 Wat 51 Wil

52 Bnr 52 Bla 52 Cam 52 Co1 52 Ehl 52 Eq 52 Grimm 52 Gre 52 Hen 52 Ho1 52 LUG 52 iWon 52 MOTZ ; 52 iTIon ; 52 Nen 1 52 hTezc i 52 h’eu 3 52 O,nn 52 Pas 1 52 Pas 2 52 Sch 1 52 Sch 2 52 See 52 Sin 52 Tak 52 Tay 52 Tri 1 52 Tri 2 52 Tri 3 52 Tri 4 52 Tri 5 52 Tri 6 52 I’er 52 Wil

53 Don 53 Ehl 53 En: 53 Goe 53 Gorn 53 Ha: 53 Ils 53 Lace 1 53 Lfte 2 53 nrit 53 itfor 53 MO~I. 53 nr0,l.

Kalb, G.: Natunvissenschaften 38 (1951) 560. Kimoto, S.: Sci. Light (Tokyo) 1 (1951) 106. Lucas, L. N. D.: Proc. Phys. Sot. (London) A 64 (1951) 943. Pashley, W. D.: Proc. Roy. Sot. (London) SW. A 210 (1951) 354. Raethcr, H.: Acta Cry&. 4 (1951) 70. Royer, L.: Compt. Rend. 232 (1951) 1564. Royer, L.: Compt. Rend. 232 (1951) 1764. Sato, R.: J. Phys. Sot. Japan 6 (1951) 527. Schulz, L. G.: Acta Cryst. 4 (1951) 4S3. Schulz, L. G.: Acta Cryst. 4 (1951) 4S7. Schulz, L. G.: J. Chcm. Phys. 19 (1951) 504. Schulz, L. G.: Phys. Rev. 82 (1951) 314. Smollet, M., M. Blackman: Proc. Phys. Sot. (London) A 64 (1951) 6S3. Stanley, E.: Research 4 (1951) 293. Watanabe, Y., S. Kimoto: Sci. Light (Tokyo) 1 (1951) 37. Willems, J. : Natunvissenschaften 38 (1951) 211.

Bardolle, J., J. Bcnard: Rev. Met. (Paris) 69 (1952) 613. Blackman, M.: Proc. Phys. Sot. (London) A 65 (1952) 1040. Camargo, W. C. R. de: Bol. Univ. Sao Paul0 147 (1952) 1. Collins, L. E., 0. S. Haevens: Proc. Phys. Sot. (London) B 65 (1952) 825. Ehlers, H., H. Racther: Natunvissenschaftcn 39 (1952) 487. Engcl, 0. E.: J. Chcm. Phys. 20 (1952) 1174. Game, P. M.: Bull. Brit. Museum Mineral. 1 (1952) 75. Grcnvillc-Wells, H. J.: Mineral. Mag. 29 (1952) 803. Heavens, 0. S., L. E. Collins: J. Phys. Radium 13 (1952) 658. Holzman, G. R., I<. H. Moore: J. Colloid. Sci. 7 (I 952) 396. Lucas, L. N. D.: Proc. Roy. Sot. (London) Ser. A 215 (1952) 162. Monicr, J. C.: Compt. Rend. 234 (1952) 1185. Monier, J. C.: Compt. Rend. 234 (1952) 2375. Monier, J. C.: Compt. Rend. 234 (1952) 2456. Neuhaus, A.: Anger. Chem. 64 (1952) 15s. Neuhaus, A.: 2. Elektrochcm. Angem. Physik. Chem. 56 (1952) 348. Neuhaus, A.: 2. Elektrochcm. Angew. Physik. Chem. 56 (1952) 453. Ogawa, S., D. Watanabe: Acta Cryst. 5 (1952) 848. Pashley, D. W.: Acta Cryst. 5 (1952) S50. Pashley, D. WT.: Proc. Phys. Sot. (London) A 65 (1952) 33. Schulz, L. G.: Acta Cryst. 5 (1952) 264. Schulz, L. G.: Acta Cryst. 5 (1952) 266. Seeligcr, E.: Beitr. Mineral. Petrog. 3 (1952) 60. Siat, A., R. Hocart: Compt. Rend. 234 (1952) 2377. Takahaschi, N. : Compt. Rend. 234 (1952) 1619. Taylor, A., R. \\‘. Floyd: J. Inst. Metals 80 (1952) 577. Trillat, J. J., S. Okctani: Acta Cryst. 5 (1952) 469. Trillat, J. J.: Acta Cryst. 5 (1952) 471. Trillat, J. J.: J. Phys. Radium 13 (1952) 395. Trillat, J. J.: J. Phys. Radium 13 (1952) 405. Trillat, J. J.: J. Chim. Phys. 49 (1952) 439. Trillat, J. J.: J. Phys. Radium 13 (1952) 705. Verma, R. A.: Proc. Phys. Sot. (London) B 65 (1952) 525. Willems, J,: 2. Elektrochcm. Angcw. Physik. Chem. 56 (1952) 345.

Donnay, G., J. D. H. Donnay: Am. Mineralogist 38 (1953) 932. Ehlers, H.: 2. Physik 136 (1953) 379. Engel, 0. E.: J. Res. Natl. Bur. Std. 50 (1953) 249. Giittschc, H. : 2. Physik 134 (1953) 504. Gomcr, R., C. S. Smith: Structure Properties of Solid Surfaces, Chicago, Illinois 1953. Hagihara, H.: J, Phys. Sot. Japan 8 (1953) 406. Ilschner, B., H. Pfeiffer: Natunvissenschaften 40 (1953) 603. Ltidemann, H.: Physik. Verhandl. 4 (1953) 163. Ltidemann, H.: Acta Cryst. 6 (1953) S73. Mitchell, R. S., A. A. Giardi: Am. Mineralogist 38 (1953) 136. hIonier, J. C., R. Hocart: Compt. Rend. 236 (1953) 2089. Monier, J. C.: Compt. Rend. 237 (1953) 342. Monier, J. C., R. Weil: Compt. Rend. 237 (1953) 399.

Gebhardt lNeuhaus

6 References 149

53 Mon4 Monier, J. C.: These, Paris 1953. Nagashima, S.: J. Japan Inst. Metals (Sendai) I7 (1953) 501. 53 Nag

53 Pet Petch, N. J.: Acta Cryst. 6 (1953) 96. 53 Roy I = 33 Roy 3. 53 Roy 2 Royer, L.: Compt. Rend. 236 (1953) 1430. 53 Roy 3 Royer, L.: Compt. Rend. 236 (1953) 1804. 53 Sat Sato, R.: J. Phys. Sot. Japan 8 (19.53) 758. 53 Sta Stanley, E.: Acta Cryst. 6 (1953) 187: 53 Tak Takahaschi, N., J. Trillat, A. Saulnier: Metaux (Corrosion-Ind.) 28 (1953) 185. 53 Vot Votava, E.: Naturwissenschaften 40 (1953) 290. 53 Wil Wille(ms, J.: Experientia 9 (1953) 175.

54 Bau Bauer, E.: Physik.,Verhandl. 5 (1954) 176. 54 Ben Benard, J. : Bull. Sot. Franc. Mineral. Crist. 77 (1954) 1061. 54 Bia Bianchi, G. : Metallurgia, Italien 64 (1954) 49.

54 Fra Frank-Kamenezkij, V. A. : Utschenye Sapiski Leningrad Univ. 78 (1954)’ 137. 54 Gay Gay, R.,‘R. Reynaud: Bull. Sot. Franc. Mineral. Crist. 77 (1954) 1049. 54 Gos Goswami, A.: J. Sci. Ind. Res. (India) 13B (1954) 677. 54 Hoc I Hocart, R., M. Oberlin, A. Siat: Compt. Rend. 239 (1954) 292. 54 Hoc 2 Hocart, R., A. Oberlin: Compt. Rend. 239 (1954) 1228. 54 Jah JahrreiB, H.: Ann. Physik 14 (1954) 319.

.

54 Len Lenzen, G.: 2. Deut. Ges. Edelsteinkunde, Heft 8 (1954) 7. 54 Lis Lisgarten, N. D.: Trans. Faraday Sot. 50 (1954) 684. 54 Lue Liidemann, H.: Z. Naturforsch. 9a (1954) 252. 54 Miy Miyake, S., K. Suzuki:, J. Phys. Sot. Japan 9 (1954) 702. 54 Mon I Monier, J. C. : Bull. Soe. Franc. Mineral. Crist. 77 (1954) 41. 54 Mon 2 Monier, J. C.: Bull. Sot. Franc. Mineral. Crist. 77 (1954) 72. 54 Mon 3 Monier, J. C. : Bull. Sot. Franc. Mineral. Crist. 77 (1954) 1029. 54 Mon 4 Monier, J. C. : Bull. Sot. Franc. Mineral. Crist. 77 (1954) 1 I 73. I 54 Mon 5 Monier, J. C.: Bull. Sot. Franc. Mineral. Crist. 77 (1954) 1315. 54 Mon 6 Monier, J. C., R. Hocart: Compt. Rend. 239 (1954) 357. 54 Mon 7 Monier, J. C., R. Hocart: Union Intern. De Cryst. 3. Congr. Paris 1954. 54 Obe Oberlin, M. (geb. Agnes Mathieu-Sicaud) : Union Intern. De Cryst. 3. Congr. Paris 1954. 54 Oga Ogawa, S., D. Watanabe: J. Phys. Sot. Japan 9 (1954) 475. 54 Oke Oketani, S., S. Nagakura:, J. Japan Inst. Metals (Sendai) 18 (1954) 329. 54 Pin Pinsker, Z. G., S. V. Kaverin: Dokl. Akad. Nauk SSSR 95 (1954) 797. 54 Ram Ramdohr, P. : Lehrb. d. Mineralogie, Ferdinand Enke Verlag, Stuttgart 1954, 98, 215. 54 Roy Royer, L.: Bull. Sot. Franc. Mineral. Crist. 77 (1954) 1004. 54 Son Sonoike, S. : Sci. Ind. Phot. 25 (1954) 56. 54 Sue Sueno, T.: Mineral. J. (Sapporo) 1 (1954) 185. 54 Tak Takahaschi, N. : Compt. Rend. 238 (1954) 462. 54 vui Vuille, R. : Helv. Chim. Acta 37 (1954) 2264. 54 Wil I Willems, J. : Naturwissenschaften 41 (1954) 302. 54 Wil2 Wilman, H., M. S. A. Khan: Union Intern. de Cry& 3. Congr. Paris 1954.

55 Bra Brandstatter, M., A. Martineck: Naturwissenschaften 42 (1955) 369. 55 Dix Dixit, K. R., V. V. Agashe: Z. Naturforsch. 10 a (1955) I$?. 55 Fer Ferroni, E., M. Cocchi: Ann. Chim. 45 (1955) 587. 55 Fuj Fujiwara, H., T. Ichiki: J. Phys. Sot. Japan 10 (1955) 468. 55 Hof Hofmann, R. W., G. Schumacher: Arch. Eisenhiittenw. 26 (1955) 99. ’ 55 Ho? Hoppe, W. : Naturwissenschaften 42 (1955) 484. 55 Jan Jankovic, S.: Neues Jahrb. Mineral. Monatsh. 1955, 224. 55 May Mayer, H.: Physik diinner Schichten 1 und 2, Wissenschaftl. Verlagsges., Stuttgart 1955. 55 Oga Ogawa, S., D. Watanabe, F. E. Fujita: J. Phys. Sot. Japan 10 (1955) 429. 55 Oke Oketani, S., S. Nagakura: J. Japan Inst. Metals (Sendai) 19 (1955) 160. 55 Pfe Pfeiffer, I. :,Naturwissenschaften 42 (1955) 508. 55 Rana Ramdohr, P. : Die Erzmineralien und ihre Verwachsungen, Akademie-Verlag, Berlin 1955 55 Sch I Schumskij, P. A.: Woprosy Geol. Asii (SSSR) 2 (1955) 565. I 55 Sch 2 Schwab, G. M.: Chimica 9 (1955) 250. 55 Sei Seifert, H. : Naturwissenschaften 42 (1955) 13. 55 Sil Silcock, J. M.: J. Inst. Metals 84 (1955-56) 19. 55 suz Suzuki, K.: J. Phys. Sot. Japan 10 (1955) 794. 55 Wil 1 Wilke, K. T. : Naturwissenschaften 42 (1955) 603. 55 wi12 Willems, J. : Naturwissenschaften 42 (1955) 176.

56 Con Conjeaud, P.: J. Chim. Phys. 53 (1956) 620.

Land&-BCmstein, Neue Serie III/8

Gebhardt /Neuhaus 11

6 Literatur

56 Dix Dixit, K. R., V. V. Agashe: 2. Naturforsch. lla (1956) 41. 56 Goe Gattsche, H.: 2. Naturforsch. lla (1956) 55. 56 Gos Goswami, A., Y. N. Trehan: Trans. Faraday Sot. 52 (1956) 358. 56Hnn 1 Haase, 0.: 2. Naturforsch. lla (1956) 46. 56 Hno 2 Haase, 0.: 2. Naturforsch. lla (1956) 862. 56 Jaf I Jaffray, J., R. Montmory: Compt. Rend. 243 (1956) 126. 56 Jaf 2 Jaffray, J., R. Montmory: Compt. Rend. 243 (1956) 891. 56 Ker Kerr, I. S., H. Wilman: J. Inst. Metals 84 (1955-56) 379. 56 Lue Liidemann, H.: Z. Naturforsch. lla (1956) 935. 56 Arag Nagakura, S.: J. Japan Inst. Metals (Sendai) 20 (1956) 465. 56 Xezt Neuhaus, A. in: Tercera Reun. Intern. Sobre Reactividad Solidos, Madrid 4 (1956). 56 Obe Oberlin, A., R. Hocart: Int. Union Cryst. Symposium 4 (1956) 2. 56 Oke Okctani, S., S. Nagakura: J. Japan Inst. Metals (Sendai) 20 (1956) 460. 56 Pas Pashley, D. W.: Advan. Phys. 5 (1956) 173. 56 Seg Segmiiller, A.: Z. Krist. 107 (1956) 18. 56Sei 1 Seifert, H.: Reun. Intern. Sobre Reaction De Los Solidos 3 (1956) 93. 56 Sei 2 Seifert, H. : Natunvissenschaften 43 (1956) 158. 56 Sew Semiletov, S. A. : Kristallografiya 1 (I 956) 306. 56 Skn Shaub, B. M., D. Wrinch: Am. Mineralogist 41 (1956) 944. 56 Ski Shigeta, J.: J. Phys. Sot. Japan 11 (1956) 206. 56 I’d Vultec, J. von: Z. Krist. 107 (1956) 117. 56 Wil Willems, J., I. Willems: Nature 178 (1956) 429.

57 Bag Bagariatskii, I. A., I. 0. Tiapkin: Soviet. Phys.-Cryst. (English Transl.) 2 (1957) 414. 57 Bet Bemnl, J. D., D. R. Dasgupta, A. L. Mackay: Nature 180 (1957) 645. 57 COG Cocchi, hr., E. Ferroni: Z. Physik. Chem. (Frankfurt) 13 (1957) 327. 57 co1 Collins, L. E., C. S. Haevens: Proc. Phys. Sot. (London) B 7 (1957) 265. 57 Fer I Ferroni, E., M. Cocchi: Ann. Chim. 47 (1957) 222. 57 Fer 2 Ferroni, E., M. Cocchi: Ann. Chim. 47 (1957) 229. 57 Fm Frank-Kemcnezkij, V. A. : Zentr. Mineral. I 1957, 92. 57 Jaf 1 Jaffray, J., R. Montmory: Compt. Rend. 244 (1957) 859. 57 Jaf 2 Jaffray, J., R. Montmory: Compt. Rend. 245 (1957) 2221. 57Kle 1 Kleber, W., J. Weis: Naturwissenschaften 44 (1957) 231. 57 KIe 2 Kleber, W., K. Meyer: Naturwisscnschaften 44 (1957) 373. 57 Kits Kusumoto, K., M. Otha, N. Konishi: J. Japan. Inst. Metals (Sendai) 21 (1957) 561. 57 hlen Menzcl, W., W. St8sse1, Chr. Menzel-Kopp: Z. Naturforsch. 12a (1957) 404. 5 7 A’ag Nagakura, S.: J. Phys. Sot. Japan 12 (1957) 482. 57 New Newman, R. C.: Phil. Msg. 2 (1957) 750. 57 Pig Pigott, RI. R.: Acta Cryst. 10 (1957) 364. 57 Rei Reimcr, L.: Natunvissenschaftcn 44 (1957) 416. 57 See Sceliger, E.: Fortschr. Mineral., 35-36 (1957-58) 12. 57 Swn Swalin, R. A.: Acta Cryst. 10 (1957) 473. 57 1-d Vultcc, J. von: Neucs Jahrb. Mineral. Monatsh. 1957, 129. 57 Il’il I \Villems, J.: Expcricntia 13 (1957) 276. 57 Il’il 2 \\‘illcms, J., I. Willcms: Expcricntia 13 (1957) 465. 57 Wil 3 \Villcms, J.: Angcw. Chcm. 69 (1957) 695. 57 II’Oil Wondratschek, H.: Neues Jahrb. Mineral. hlonatsh. 1957, 135.

58 Bun Brandstatter-Kuhncrt, M.: Z. Krist. 110 (1958) 1. 58 Dis Disit, K. R.: Proc. Acad. Sci. India A 48 (195s) 330. 58 Eck Eckhardt, F. J.: Neues Jahrb. hlincral. Monatsh. 1958, 1. 58 Fer Ferroni, F., h1. Cocchi: Nature 181 (1958) 903. 58 Fis Fischer, E. W.: Kolloid-Z. 159 (1958) 108. 58 Jaf Jaffray, J., hr. T. Majourel: J. Phys. Radium 19 (1958) 109. 58 Kmr Kamcnzcw, I. J.: Geol. I’ Raswcdka 10 (1958) 132. 58 Ker Kern, R., R. Gindt: Bull. Sot. Franc. Mineral. Crist. 81 (1958) 263. 58KIe 1 Klebcr, I\‘.: Fortschr. hiincral. 36 (1958) 38. 58 Kle 2 Klcbcr, \\‘., J. \\‘cis: Z. Krist. 110 (1958) 30. 58 Kle 3 Klcbcr, \V., K. hleyer: Z. Anorg. Ally. Chem. 296 (195s) 164. 58 Kos Kostov, I.: hIincra1. Msg. 31 (195s) 333. 58 hfex RIenzcl, E., Chr. hlcnzcl-Kopp: Z. Naturforsch. 13a (1958) 985. 58 hlix hlinccva-Stevanova, J.: Chem. Erdc 19 (1958) 3S6. 58 A’eti~ Newkirk, J. IV., \V. G. hlartin: Trans. AIME 212 (1958) 398. 58 Sch Schneider, G.: Bcrgakademie 10 (195s) 527. 58 Sco Scott RIncKenzie, W. : Mineral. Msg. 31 (195s) 41.

Gebhardt /Neuhaus

6 References

58 Sei I 58 Sei 2 58 Str 58 Suz 58 Tre 58 Wei 58 Wil

59 Amb 59 Bou 59 Bow 59 Bry 59 con 1 59 con 2 59 cou 59 Fer 59 For 59 Fre / 59 Hae 59 He1 59 Hoc 59 Kle I 59 Kle 2 59 Kle 3 59 Laf I 59 Laf 2 59 Law 59 Len 59 Lot 59 Mar 59 Mey 59 ott 59 Pk 59 Red 59 Rim 59 Sch 59 SC0 59 Sei 1 59 Sei 2 59 smi 59 Tre 59 Wil I 59 Wil2 59 Zei

60 Bau 60 Ber 60 Bid 60 Bo? 60 Fle 60 Gah 60 Gav 60 Har 60 Kavn 60 Ker 60 Kle I 60 Kle 2 60 Kos 60 Law 60 Mar 60 Mat 60 Neu 60 Obe 60 Rim 1 60 Rim 2

Seifert, H. : Beitr. Silikose-Forsch. 3 (1958) 291. Seifert, H., K. F. Seifert: Neues Jahrb. Mineral. Monatsh. 1958, 145. Strunz, H., B. H. Geier, E. Seeliger: Neues Jahrb. Mineral. Monatsh. 1958, 241. Suzuki, K.: J. Phys. Sot. Japan 13 (1958) 179. Trehan, Y. N., A. Goswani: Trans. Faraday Sot. 54 (1938) 1703. Weis, J. : Fortschr. Mineral. 36 (1958) 66. Willems, J,: Discussions Faraday Sot. 25 (1958) 111.

Ambady, G. K. : Proc. Acad. Sci. India A 49 (1959) 136. Bougnot, J., N. Nifontoff: Compt. Rend. 248 (1959) 1683. Bown, M. G., P. Gay: Am. Mineralogist 44 (1959) 592. Bryant, G. W., J. Hallett, B. J. Mason: J. Phys. Chem. Solids 12 (1959) 189. Conjeaud, P.: Compt. Rend. 248 (1959) 566. Conjeaud, P., Cl. Sella: Compt. Rend. 248 (1959) 1680. Couderc, J., J. Garicue, L. Lafourcade, N. Quatti: ‘Compt. Rend. 249 (1959) 2037. Ferroni, E., M. Cocchi: 2. Krist. 111 (1959) 154. Forster, I. F., S. Grafenauer: Neues Jahrb. Mineral. Abhandl. 92 (1959-60) 171. Frenzel, G.: Neues Jahrb. Mineral. Abhandl. 93 (1959-60) 87. Hanlein, W., K. G. Gunther: Naturwissenschaften 46 (1959) 319. Hellner, E.: J. Geol. 67 (1959) 473. Hocart, R., E. Vincent, N. Picard: Bull. Sot. Franc. Mineral. Crist. 82 (1959) 398. Kleber, W.: Fortschr. Mineral. 37 (1959) 55. Kleber, W., 0. Verworner: 2. Krist. 111 (1959) 435. Kleber, W.: 2. Physik. Chem. (Leipzig) 212 (1959) 222. Lafourcade, L., P. Larroque, N. Quatti: Compt. Rend. 249 (1959) 230. Lafourcade, L., P. Larroque, N. Quatti: Compt. Rend. 249 (1959) 390. Lawless, K. R., G. T. Miiller: Acta Cryst. 12 (1959) 594. Lonsdale, K., H. I. Milledge, E. Nave: Mineral. Mag. 32 (1959) 185. Lotgering, F. K. : J. Inorg. Nucl. Chem. 9 (1959) I I 3. Marucci, J., N. Nifontoff: Compt. Rend. 249 (1959) 435. Meyerhoff, K., J. Ungelenk: Acta Cryst. 12 (1959) 32. Otter, M.: Physik. Verhandl. 10 (1959) 19. Pluchery, M. : Intern. Kongr. Reine Angew. Chem. 1959, 130. Reddy, A. K. N., H. Wilman: Trans. Inst. Metal. Finishing 36 (1959) 97.. Rimsky, A. : Bull. Sot. Franc. Mineral. Crist. 82 (1959) 37. Schwab, G. M. : J. Inorg. Nucl. Chem. 9 (1959) I 13. Scott, V. D. : Acta Cryst. 12 (1959) 136. Seifert, H. : Naturwissenschaften 46 (1959) 261. Seifert, H.: Wiss. Forschungsber. Naturwiss. Reihe 66 (i959) 3. Smith, W. W.: Mineral. Mag. 32 (1959) 324. Trehan, Y. N., A. Goswami: Trans. Faraday Sot. 55 (1959) 2162. Willems, J.: Experientia 15 (1959) 175. Willems, J.: Angew. Chem. 71 (1959) 558. Zeitlin, H., H. Goya: Nature 183 (1959) 1041. Bautsch, H. J. : Neues Jahrb. Mineral. Abhandl. 94 (1960) 908. Bernal, J. D.: Schweiz. Arch. Angew. Wiss. Tech. 26 (1960) 69. Bideaux, R. A. : Am. Mineralogist 45 (1960) 1282. Bougnot, J.: Compt. Rend. 250 (1960) 2541. Fletcher, N. H.: Australian Phys. 13 (1960) 406. .Gahm, J. : Tonindustrie-Zeitung Zbl. 84 (I 960) 215. Garigue, J., L. Lafourcade, N. Quatti, F. Sonier: Compt. Rend. 250 (1960) 3296. Harris, A. L., N. Rast: Nature 185 (1960) 448. Kamenzew, I. J.: Vestn. Leningr. Univ. Nr. 12 (1960) 15. Kern, W., J. Davidovits, K. J. Rauterkus: Naturwissenschaften 47 (1960) 538. Kleber, W., L. Ickert : Naturwissenschaften 47 (1960) 539. ’ Kleber, W., R. Reinhold: 2. Krist. 114 (1960) 410. Kostow, I.. : Zentr. Mineral. I 1960, 331. Lawless, K. R., R. H. Kean: Acta Cryst. 13 (1960) 1078. Marinate, J. C. : I.B.M. J. Res. Develop. 4 (1960) 248. Mathieson, R. T. : Nature 186 (1960) 301. Neuhaus, A. : Forts&r. Mineral. 38 (1960) 146. Oberlin, A., C. Tschoubar: Compt. Rend. 250 (1960) 875. Rimsky, A.: Acta Cryst. 13 (1960) 1144. Rimsky, A. : Bull. Sot. Franc. Mineral. Crist. 83 (1960) 201.

Gebhardt INeuhaus

152 6 Literatur

60 SC17 60 Sei I 60Sei 2 60Sei 3 60 Snze 60Sie 6OSio 60 Waj 60 Wil I 60 R'il 2

61 Bar 61 Bau 61 Cap I 61 Cap 2 61 Cap 3 61Cas 61 Dazv 61Gah 61 Gil 61Gos 61 Hal 61 Hea 61 Ho/ 61 Ick 1 61 Ick 2 61 Inh 61 Kal

61 Kam 61 Kle 1 61 Kle 2 61 Kle 3 61Kle4 61 Kor 61 Man 61Mat 61 Me) 61 Min 61 Oka 61 Pit I 61 Pit 2 61 Sei 61 SJIi 61 Snzi 61 Sir I 61 Sir 2 61 li'i? 61Zef

62 Ash I 62 Ash 2 62 Ask 62 BFII 62 Bog 62 Bor 62 Brrl 62 Cal 62 Geh 62Glo 62 Gne 62 Hut 62 Ick 62 Jo> 62 Kam

Schachner-Kom, D.: Neues Jahrb. Mineral. Abhandl. 94 (1960) 469. Seifert, H., G. Labrot: Acta Cryst. 13 (1960) 1081. Seifert, K. F.: Z. Krist. 114 (1960) 287. Seifert, K. F.: Z. Krist. 114 (1960) 361. Smetilov, S. A., 1~. I. Man: Soviet Phys.-Cryst. (English Transl.) 5 (1960-61) 289. Steward, E. G., B. P. Cook: Z. Krist. 114 (I 960) 245. Stoch, L.: Bull. Acad. Polon. Sci., Ser. Sci. Geol. Geograph. 8 (1960) 21. Wajda, E. S., B. W. Kippcnhan, W. H. White: I.B.M. J. Res. Develop. 4 (1960) 2SS. Willems, J.: Expericntia 16 (1960) 530. Wilman, H.: Acta Cryst. 13 (1960) 1096.

Barid, L. : Fortschr. Mineral. 39 (1961) 336. Bautsch, H. J.: Z. Silicattechn. 12 (1961) 265 Capella, L.: Compt. Rend. 252 (1961) 429. Capella, L.: Compt. Rend. 252 (1961) 1937. Capella, L.: Compt. Rend. 252 (1961) 3465. Castaing, R., B. Jouffrcy: Compt. Rend. 252 (, 1961) 2696. Davey, J. E. : J. Appl. Phys. 32 (1961) 1015. Gahm, J.: Tonindustrie-Zeitung Zbl. 85 (1961) 95. Gillet, hi., E. Gillet, R. Zouckermann: Compt. Rend. 252 (1961) 1925. Goswami, A.: Nature 191 (1961) 160. Hallet, J.: Phil. Mag. 6 (1961) 1073. Head, R. B.: Nature 191 (1961) 1058. Hofmann, R. W., G. M. Brindley: Am. Mineralogist 46 (1961) 450. Ickert, L.: Fortschr. Mineral. 39 (1961) 330. Ickert, L.: Fortschr. Mineral. 39 (1961) 348. Inham, H. S. jr., P. J. McDade: Bull. Sign. 22 (1961) 4955. Kalinkin, J. I?., L. A. Sergejeva, W. B. Abskovski, L. P. Strachov: Fiz. Tverd. Tela 1 (1961)

2640. Kamiya, Y., R. Uyeda: Acta Cryst. 14 (1961) 70. Klebcr, W.: Ber. Geol. Ges. 1 (1961) 59. Klebcr, W. : AufschluB 12 (1961) 6. Klebcr, W.: Fortschr. Mineral. 39 (1961) 40. Klebcr, W., J. Mictz: Naturwissenschaftcn 48 (1961) 499. Koritke, H.: Fortschr. Mineral. 39 (1961) 331. Maas, A., I<. Reckcr: Fortschr. Mineral. 39 (1961) 72. Marinate, J. C.: Bull. Sign. 22 (1961) 4963. Meyer, G. : Naturwissenschaftcn 48 (1961) 665. Minchcva-Stefanova, I.: Bull. Sign. 22 (1961) 37. Okada, T., T. Kane, Y. Sasaki: J. Phys. Sot. Japan 16 (1961) 2591. Pitsch, W.: Arch. Eisenhiittcnw. 32 (1961) 493. Pitsch, W.: Arch. Eisenhiittcnw. 32 (1961) 573. Seifert, H. : Naturwisscnschaftcn 48 (1961) 713. Shirai, S., Y. Fukuda, M. Nomura: J. Phys. Sot. Japan 16 (1961) 1939. Smith, W. W. : Mineral. Mag. 32 (1961) 823. Strunz, H.: Aufschlul3 12 (1961) 81. Strunz, H.: AufschlnO 12 (1961) 201. Willems, J.: Expcrientia 17 (1961) 344. Zettlemoyer, A. C., N. Tschcurckdjian, J. J. Chcssick: Nature 192 (1961) 653.

Ashbcc, K. H. G., R. E. Smallman: Phil. Mag. 7 (1962) 1933. Ashbce, K. H. G., W. T. Eelcs: Acta Cryst. 15 (1962) 1312. Asklund, B., \\‘. L. Brown, J. V? Smith: Am. Mineralogist 47 (1962) 160. Benard, J.: L’Osidation des Mctaus Bcl. 1 + 2, Gauthier et Cie, Paris 1962 et 1964. Bogers, A. J.: Acta Met. 10 (1962)) 260. Borie, B., C. J. Sparks, J. V. Cathcart : Acta Met. 10 (1962) 691. Bruu, I,., K. G. Gharpurey: Soviet Phys.-Cryst. (English Transl.) 7 (1962) 222. Cathcart, J. V., J, E. Eppcrson, G. F. Petersen: Acta Met. 10 (1962) 699. Gehlen, K. von: Ber. Deut. Keram. Ges. 39 (1962) 315. Glover, E. D., R. F. Sippcl: Am. Mineralogist 47 (1962) 1156. Giintert, 0. J., R. L. Mozzi: Nature 193 (1962) 570. Huchcr, M.: Bull. Sot. Franc. Mineral. Crist. 85 (1962) 5. Ickert, L.: Z. Physik. Chem. (Leipzig) 221 (1962) 247. Joyce, B. D., J. A. Baldrcy: Nature 195 (1962) 458. Kamenzew, I.: Zentr. Mineral. I 1962, 265.

Gebhardt /Neuhaus

6 References 153

62 Kle 62 Kra 62 Mat 62 Mei 62 Neu 1 62 Xeu 2 62 Neu 3 62 Noa I 62 Noa 2 62 Pan 62 Pa? 62 Pit I 62 Pit 2 62 Ram 62 Ret 62 Buy 62 Sat 62 Sei 62 Slo 62 Stv 62 Sui 62 Sun 62 Tur 62 Ung 62 Wal 62 Wil 62 Wit

63 Ale 63 Bal 63 Bar 63 Blz 63 Ca? 63 Car 63 Fin 63 Jag 63 Ku1

63 Kis 63 Kle I 63 Kle 2 63 Kle 3 63 Lac 63 Liq 63 Lub 63 Man 63 Met 63 Mue 63 Neu 63 Nov

63 Pun 63 Ret 63 Red 63 Rum

63 Sat 63. Sch 63 Sei 63 Sha

63 Uel 63 Vev 63 Wil 63 Yod

Kleber, W., I. Mietz: Monatsber. Deut. Akad. Wiss. Berlin 4 (1962) 552. Kraus, G.: Neues Jahrb. Mineral. Abhandl. 97 (1962) 357. Matz, G.: Fortschr. Verfahrenstech. 34 (1962) 495. Meixner, H.: Fortschr. Mineral. 40 (1962) 60. Neuhaus, A., E. A. Jumpertz, M. Gebhardt: Chem. Ing. Tech. 34 (1962) 850. Neuhaus, A., E. A. Jumpertz, M. Gebhardt: Fortschr. Mineral. 40 (1962) 75. Neuhaus, A., E. A. Jumpertz, M. Gebhardt: 2. Electrochem. 66 (1962) 593. Noack, J. : Wiss. 2. Humboldt-Univ. Berlin Math. Naturw. Reihe 11 (1962) 762. Noack, J.: 2. Physik. Chem. (Leipzig) 219 (1962) 417. Pankow, G., M. Drechsler: 2. Physik. Chem. (Frankfurt) 31 (1962) 288. Papirov, I. I., L. S. Palatnik: Soviet Phys.-Cryst. (English Transl.) 7 (1962) 222. Pitsch, W. : Acta Met. 10 (1962) 79. Pitsch, W. : Acta Met. 10 (1962) 897. Ramos, F.: Anales Real Sot. Espan. Fis. Quim. (Madrid) 58A (1962) 223. Reeker, K. : Fortschr. Mineral. 40 (1962) 57. Ruyvens, D. van: Physica 28 (1962) 307. Sato, R.: Acta Cryst. 15 (1962) 1109. Seifert, H., L. Kuhn: Naturwissenschaften 49 (1962) 537. Sloope, B. W., C. 0. Tiller: J. Appl. Phys. 33 (1962) 345% Strunz, H. : AufschluB 13 (1962) 175. Suito, E., N. Uyeda, M. Ashida: Nature 194 (1962) 273. Sun, M. S. : Am. Mineralogist 47 (1962) 152. Turgo, G.: Bull. Sot. Franc. Mineral. Crist. 85 (1962) 407. Ungelenk, J. : Naturwissenschaften 49 (1962) 252. Walton, D. : J. Chem. Phys. 37 (1962) 21 S2. Wilde, W. : Wiss. 2. Humboldt-Univ. Berlin Math. Naturw. Reihe 11 (1962) 752. Witzke, H. D.: 2. Physik. Chem. (Leipzig) 221 (1962) 259.

Alessandrini, E. I., J. Freedman: Acta Cryst. 16 (1963) 55. Balz, A.: J. Appl. Phys. 34 (1963) 1575. Baric, L. : Beitr. Mineral. Petrog. 9 (1963) 133. Blet, G.: Vide 18 (1963) 293. Capella, L.: Bull. Sot. Franc. Mineral. Crist. 86 (1963) 157. Carpenter, A. B. : Am. Mineralogist 48 (1963) 1394. Finch, R. H., H. J. Queisser: J. Appl. Phys. 34 (1963) 406. Jagut, R. : These, Toulouse 1963. Kalinkin, J. P., L. A. Sergejeva, W. B. Abskovski, L. P. Strachov: Kristallografiya 8 (1963)

459. Kissin, G. H. : The Finishing of Aluminium. Rheinhold Publ. Corp. 1963. Kleber, W., H. D. Witzke: Naturwissenschaften 50 (1963) 372. Kleber, W., L. Ickert, H. Vollstaedt: Naturwissenschaften 50 (1963) 221. Kleber, W., L. Ickert, H. Vollstaedt: 2. Physik. Chem. (Leipzig) 222 (1963) 285. Lacmann, R. : Ber. Bunsenges. Physik. Chem. 67 (1963) 632. Lima de Faria, J.: 2. Krist. 119 (1963) 77. Luborsky, F. E., E. F. Koch, 0. R. Morelock: J. Appl. Phys. 34 (1963) 2905. Man, L. I., S. A. Semiletov: Soviet Phys.-Cryst. (English Transl.) 7 (1963) 686. Mecke, P. : Naturwissenschaften 50 (1963) 399. Mtiller, K. E., B. J. Nicholson, G. E. Turner: J. Electrochem. Sot. 110 (1963) 969. Neuhaus, A., E. A. Jumpertz, M. Gebhardt : Korrosion 16 (1963) 155. Novik, F. T., M. A. Rumsh, T. M. Zimkina: Soviet Phys.-Cryst. (English Transl.) 8 (1963)

295. Pundsack, A. L. : J. Appl. Phys. 34 (1963) 2306. Reeker, K.: 2. Krist. 118 (1963) 161. Reddy, A. K. N., H. Wilman: Acta Cryst. 16 (1963) 844. Rumsh, M. A., F. I. Novik, T. M. Zimkana: Soviet Phys.-Cryst. (English Transl.) 7 (1963)

711. Sato, H., R. S. Toth, R. W. Astruve: J. Appl. Phys. 34 (1963) 1062. Schindl, K. P.: Acta Phys. Austriaca 16 (1963) 327. Seifert, H., W. Borchardt-Ott: Acta Cry& 17 (1963) 145. Shalimova, K. V., N. K. Morozova, V. S. Soldatov: Soviet Phys.-Cryst. (English Transl.) 8

(1963) 326. Uelkue, D.: 2. Krist. 119 (1963) 319. Verderber, R. R.: J. Appl. Phys. 34 (1963) 2103. Willems, J. : Naturwissenschaften 50 (1963) 92. Yoda, E., B. M. Siegel: J. Appl. Phys. 34 (1963) 1512.

Gebhardt INeuhaus

151 6 Literatur

44 Ale 44 A mi 44 Bat 44 BnI 54 Bet 64 Bit 64 Bra 1 64 Bun 2 64 Bri 64 Bro

64 Bru 64 Cam 64 Das 64 Fun I 64 Fra 2

64 Gab I 64 Gob 2 64 Gab 3 64 Geb I 64 Geb 2 64 Gil 64 Gva 64 Grn 64 Hnr I 64 Har 2 64 Her 64 Hiz 64 Han 64 Jau 64 Kle I 64 Kle 2 64 Lnn 64 Lim 64 hln n 64 hlnr I 64 hfar ; 64 hlnr j

64 hfot 64 h!lr II 64 hlrt 64 Me)- 64 Mi) 64 hloo 64 hfo, 64 Nrn 1 64 RIEzl 2 64 Osrv 64 @a 64 Rnd 64 Rir

64 Sck I

64 SC?& 2 64 Sri 64 SeI 64 Sew 64 Sha 64 Sir 1 64 Sir 2 64 Um

Alessandrini, E. I. : J. Appl. Phys. 35 (1963) 1606. Amick, J. A.: Single Crystal Films, Oxford, Pergamon Press, 1964, 283. Bach, H.: Naturwissenschaftcn 51 (1964) lo. Balz, A.: Single Crystal Films, Oxford, Pergamon Press, 1964, 315. Bettman, hl.: Single Crystal Films, Oxford, Pergamon Press, 1964, 177. Bickncll, R. W., J. M. Charig, B. A. Joyce, D. J. Stirland: Phil. Nag. 9 (1964) 965. Brack, K., MT. Spiclmann: Physik. Verhandl. 15 (1964) 91. Brander, R. W.: J. Electrochcm. Sot. 111 (1964) 881. Bricu, 11.: Thcsc, Toulouse 1964. Brockway, L. O., R. B. Marcus, A. P. Rowe: Single Crystal Films, Oxford, Pergamon Press,

1964, 231. Bruu, L., F. Ramos: 2. Krist. 199 (1964) 405. Campbell, D. S., D. J. Stirland: Phil. Mag. 9 (1964) 703. Dasgupta, D. R.: Mineral. Mag. 33 (1964) 924. Francombc, M. H., H. Sato (Editors) in: Single Crystal Films, Oxford, Pcrgamon Press, 1964. Francombc, RI. H., I. H. Khan, J. J. Flood, M. RI. Schlacter: Single Crystal Films, Oxford,

Pcrgamon Press, 1964, 91. Gabor, T.: J. Electrochem. Sot. 111 (1964) 817. Gabor, T.: J. Electrochem. Sot. 111 (1964) 821. Gabor, T.: J. Elcctrochem. Sot. 111 (1964) 825. Gebhardt, M., A. Neuhaus: Naturwissenschaften 51 (1964) 358. Gebhardt, M., A. Neuhaus: Chem. Ing. Tech. 36 (1964) 793. Gillct, E., M. Gillct: Compt. Rend. 258 (1964) 6382. Gradmann, U.: Physik. Verhandl. 15 (19~34) 121. Grnenbaum, E., J. \V. Mitchell: Single Crystal Films, Oxford, Pergamon Press, 1964, 221. Harsdorff, M.: Fortschr. Mineral. 42 (1964) 250. Harsdorff, hf., H. Raethcr: Physik. Verhandl. 15 (1964) 122. Hermann, W., L. Reimer: Physik. Verhandl. 15 (1964) 73. Hines, R. I,. : J. Phys. 25 (1964) 134. Honjo, G.: Single Crystal Films, Oxford, Pergamon Press, 1964, 189. Jaunet, J., C. Sella: Bull. Sot. Franc. Mineral. Crist. 87 (1964) 393. Klebcr, W.: Ncucs Jahrb. Mineral. Monatsh. 1964, 307. Klebcr, W.: News Jahrb. Mineral. Monatsh. 1964, 368. Lander, J. J.: Surface Sci. 1 (1964) 125. Lima de Faria, J., A. Lopes-Vieira: Mineral. Mag. 33 (t964) 2024. Manasevit, H. M., W. I. Simpson: J. Appl. Phys. 35 (1964) 1349. hlartin-Patino, T., F. Arrcse, J. Rodrignez: Bol. Real. Sot. Espan. Hist. Nat. 62 (1964) 53. Martin-Patino, T., F. Arrcsc, J. Rodriguez: Bol. Real. Sot. Espan. Hist. Nat. 62 (1964) 221. Martin-Patino, T., F. Arrcse, J. Rodriguez: Estud. Geol. Inst. Invest. Geol. ,,Lucas hlallada”

(Madrid) 20 (t964) 79. hlatthcws, J. I\‘., E. Griinbaum: Appl. Phys. Letters 5 (1964) 106. RIcndelson, S., in: Single Crystal Films, Oxford, Pergamon Press, 1964, 251. Mcrwc, J. H. van dcr: Single Crystal Films, Oxford, Pergamon Press, 1964, 139. hIcycr, H. J.: Wcrkstoffc. Korrosion 15 (t964) 653. hIiyakc, S.: Proc. Phys. Sot. Japan 1 (19G4) 6. DIoorc, C. J., E. A. hlilnc, D. E. Harrison: Appl. Phys. Letters 4 (1964) I. RIoranctz, H., in: 5. Int. Symp. Reactiv. Solids, Miinchcn 1964, 1. Kenhans, A., BI. Gebhardt: Chcm. Ing. Tech. 36 (1964) 1156. Neuhaus, A.: Dcchcma Monograph. 51 (1964) 117. Oswald, H. R., B. Brunncr in: 5. Int. Symp. Reactiv. Solids, Miinchen 1964, 1. Quatti, N.-: These, Toulouse 1964. Radczcwski, 0. E., E. Wanderer: Fortschr. Mineral. 42 (1964) 229. Richards, J. L., P. B. Hart, E. K. Miiller: Single Crystal Films, Oxford, Pergamon Press,

1964, 241. Schalla, R. L., K. \V. Tideswell, F. D. Coffin: in Single Crystal Films, Oxford, Pergamor

Press, 1964, 301. Schmalzricd, H. : Bcr. Dent. Keram. Ges. 41 (1964) 205. Seifert, H.: Bcitr. Silicose-Forschg. Heft 82 (1964) 1. Sclla, C., J. J. Trillat: Single Crystal Films, Oxford, Pergamon Press, 1964, 201. Semilctov, S. A., I. P. Veronina: Soviet Phys. ,,Doklady” (English Transl.) 8 (1964) 960. Shannon, R. D., J. A. Pask: Am. Mineralogist 49 (1964) 1707. Strnnz, H., E. Seeligcr: Aufschlul3 15 (1964) 91. Strunz, H.: Aufschlul3 15 (1964) 235. Unvala, B. A., G. R. Booker: Phil. Mag. 9 (1964) 691.

Gebhardt INeuhaus

6 References 155

54 Ve’er 14 Wil i4 woo 14 Ye1

55 AWZ 55 AW 15 Bat 15 Bav 55 Bev 55 Den 55 Fil $5 Fre 55 Geb 55 Gla 55 Gra 65 Hat 65 Har 65 Hea 65 Her 65 Hut 65 Kob 65 Leg 65 May 65 Men 65 Mic 65 Mue 65 Neu 65 Pas 65 Por 65 PUH GS Rad 65 Rei GS Seg 65 Sei 1 65 Sei 2 65 Se1 65 Sev 65 Tau 65 Tri 65 Tam 65 Zarn

66 Ale GG And 66 AYY I GGArv2

i6 Arv 3

66 Bet 6G Bie 6GBli GG Bob 6G Bru 66 By1 6G Cha GG Cis 6G Dav G6 Den GG @j 66 Dun

66 Fra 66Geb I

Verderber, R. R.: J. Appl. Phys. 35 (1964) 164j. Willems, J, : Experientia 20 (1964) 11. Wood, E. A. : J. Appl. Phys. 35 (1964) 1306. Yelon, A., 0. Voegeli: Single Crystal Films, Oxford, Pergamon Press, 1964, 321.

Arntz, F., F. Chernow: J. Vacuum Sci. Technol. 2 (1965) 20. Arrese, F., M. Morante, J. Rodriguez: Bol. Real Sot. Espan. Hist. Nat. 63 ($965) 343. Baczewski, A.: J. Electrochem. Sot. 112 (1965) 577. Baric, L.: Mineral. Petrog. Mitt. 10 (1965) 368. Bernal, I. D., A. L. Mackay: Mineral. Petrog. Mitt. 10 (1965) 331. Denoux, M., F. Lecceuvre: Compt. Rend. 260 (1965) 2476. Filby, J. D., S. Nielsen: J, Electrochem. Sot. 112 (1965) 535. Freking, K., L. Reimer: Physik. Verhandl. 16 (1965) 10. Gebhardt, M., A. Neuhaus in: Adsorption et Croissance Cristalline, Paris 1965, 701. Glasser, L. S. D., I. B. Smith: Mineral. Mag. 35 (1965) 327. Gradmann, U. : Physik. Verhandl. 16 (1965) 9. Hacq, K,E.: J. Electrochem. Sot. 112 (1965) 500. Harsdorff, M.: Physik. Verhandl. 16 (1965) 9. Heavens, 0. S., C. H. Griffith: Acta Cryst. 18 (1965) 532. Hermann, W., L. Reimer: Physik. Verhandl. 16 (1965) 10. Hutchinson, T. E.: J. Appl. Phys. 36 (1965) 270. Kobayashi, T.: Contrib. Inst. Low Temp. Sci. Sapporo Jap. 20A (1965) 1. Legros, B., J. J. Couderc, J. L. Cros: J. Microscopic 4 (1965) 183. May, J. E.: J. Electrochem. Sot. 112 (1965) 710. Mendelson, S. : Am. Ceram. Sot. Bull. 44 (1965) 410. Michelitsch, M.: J. Electrochem. Sot. 112 (1965) 747. Miiller-Buschbaum, B., H. Seifert: Kolloid-2. 205 (1965) 46. Neuhaus, A., in: Adsorption et Croissance Cristalline, Paris 1965, 675. Pashley, D. W.: Advan. Phys. 14 (1965) 324. Porter, J. L., R. G. Wolfson: J. Appl. Phys. 36 (1965) 2746. Pu Hsu, Chien-Ti Chen, Ke-Hsin Kuo: Sci. Sinica (Peking) 14 (1965) 632. Radczewski, 0. E., E. Wanderer: Naturwissenschaften 52 (1965) 426. Reisman, A., M. Berkenblit: J. Electrochem. Sot. 112 (1965) 315. Segnit, E. R.: Mineral. Mag. 34 (1965) 416. Seifert, H., W. Borchardt-Ott: Z. Krist. 122 (1965) 206. Seifert, H., B. Miiller-Buschbaum : Naturwissenschaften 52 (1965) 15 5. Sella, C., G. Deicha: Compt. Rend. 260 (1965) 3918. Sergejeva, L. A., J. P. Kalinkin, W. B. Abskovski: Kristallografiya 10 (1965) 237. Tausch, F. W. jr., A. G. Lapierre: J. Electrochem. Sot. 112 (1965) 706. Tribollet, J. C. : These, Toulouse 1965. Tung, S. K.: J. Electrochem. Sot. 112 (1965) 436. Zaminer, Chr. : Physik. Verhandl. 16 (1965) 221.

Alessandrini, E. I. : J. -4ppl. Phys. 37 (1966) 4811. Andrew, D. : Vacuum 16 (1966) 653. Arrese, F., M. Morantd, J. Rodriguez: Bol. Real Sot. Espan. Hist. Nat. 64 (1966) 229. Arrese, F., M. Patino, J. Rodriguez, Espino: Estud. Geol. Inst. Invest. Geol. ,,Lucas Mallada’

(Madrid) 21 (1966) 143. Arrese, F., J. Iniguez, J. Rodriguez: Estud. Geol. Inst. Invest. Geol. ,,Lucai Mallada”

(Madrid) 21 (1966) 247. Beck, C. G., R. Stickler: J. Appl. Phys. 37 (1966) 4683. Biedermann, E., K. Brack: J. Appl. Phys. 37 (1966) 4288. Bliznakov, G., S. D-lineschew: Phys. Status Solidi 13 (1966) 101. Bobb, L. C., H. Holloway, K. H. Maxwell, E. Zimmermann: J. Appl. Phys. 37 (1966) 4687 Brunnschweiler, A. : Nature 209 (1966) 493. Bylander, E. G.: Mater. Sci. Eng. 1 (1966) 190. Chatterji, S., J. W. Jeffery: Mineral. Mag. 35 (1966) 700. Cismaru, D., N, Bonciocat : Rev. Roumaine Chim. 11 (1966) 791. Davis, J. L., M. Knorr: J. Appl. Phys. 37 (1966) 1670. Denbich, P., R. Marcus: J. Appl. Phys. 37 (1966) 4325. Dijk, H. van, J. Goorissen in: Proc. Intern. Conf. Crystal Growth, Boston 1966, 531. Dunning, W. J ., P. G. Fox, D. W. Parker in: Proc. Intern. Conf. Crystal Growth, Boston

1966, 509. Francis, J. M. : J. Appl. Chem. 16 (1966) 264. Gebhardt, M. : Galvanotech. Oberflachenschutz 7 (1966) 294.

Gebhardt /Neuhaus

156 6 Literatur

66 Geb 2 66 GYO 66 Hea 66 Hi71 66 Ho1

66 Kei 66 Kle 1 66 Kle 2 66 Kon 66 Lnf 66 Lnr 66 Alor

66 AIe,l 66 JIOY 66 h’en 66 h’oa 66 Par 66 PuH

66 Rob 66 Sch 66 Sei 66 She 66 SIO 66 Se 66 ‘Ter 66 TAO 66 Tua 66 T’ui 66 Wei 66 zim

67 Alf 67 Alt 67 Au: 67 BY~ 67 Cho 67 Con 67 Doo 67 Doa 67 Fil 67Geb I

67 Geb 2 67 Geb 3 67 Geb 4 67Geb 5 67 Gil 67 Gri 67 Hnl 67 Hei 67 Hoi 67 Iwo 67 h-m 67 Iiiw 67lile 1 67 KIe 2 67 Kle 3 67 Kle 4 67 Kle 5 67 K-or 67 Iiw

Gebhardt, M.: Chcm. Ing. Tech. 38 (1966) 1100. Groth, R.: Phys. Status Solidi 14 (1966) 69. Heavens, 0. S., R. F. Miller, M S. Zafar: Acta Cryst. 20 (1966) 288. Hinzner, F., hl. Ruchle: Mater. Sci. Eng. 1 (1966) 74. Holloway, H., J. L. Richards, L. C. Bobb, J. Jerry jr., E. Zimmermann: J. Appl. Phys. 37

(1966) 4694. Keith, H. D., F. J. Padden jr., R. G. Vadimsky: J. Appl. Phys. 37 (1966) 4027. Klebcr, W., I. hleuscl: 2. Physik. Chcm. (Leipzig) 231 (1966) 191. Kleber, W., W. Gucrtzsch: Ber. Dem. Ges. Geol. Wiss. Reihe B 11 (1966) 305. Konitke, H., W. Pitsch: Arch. Eiscnhiittenw. 5 (1966) 409. Lafourcade, I,., P. Larroquc, h4. Baux, J. J. Couderc: J. hlicroscopie 5 (1966) 537. Larssen, P. A.: Acta Cryst. 20 (1966) 599. hlarfaing, Y., G. Cohen-Solal, F. Bailly in : Proc. Intern. Conf. Crystal Growth, Boston 1966,

549. hlendelson, S. : Mater. Sci. Eng. 1 (I 966) 42. hIorimoto\-, N., K. Koto, T. Shinohara: Mineral. J. (Tokyo) 5 (1966) 44. Keuhaus, A., hl. Gebhardt: Werkstoffe. Korrosion 7 (1966) 567. Koack, J.: Kristall Technik 1 (1966) 15. Porotikov, A. P.: Zap. Uses. hlin. Obslich. 95 (1966) 348. Pu Hsu, Chien-ti Chen, Ke-hsin Kuo: Transf. on Conn. Chinas Sci. a. Technol. Ni 66-35585

(1966) 19. Rohan, J. J., J, L. Sampson in: Proc. Intern. Conf. Crystal Growth, Boston 1966, 523. Schulze, R. G.: J. Appl. Phys. 37 (1966) 4295. Seifert, H., in: Proc. Intern. Conf. Crystal Growth, Boston 1966, 543. Shcftal, K. K., K. A. Magomcdov in: Proc. Intern. Conf. Crystal Growth, Boston 1966, 533. Sloope, B. A\‘., C. 0. Tiller: J. Appl. Phys. 37 (1966) 887. Steinberg, R. F., D. h1. Scmggs: J. Appl. Phys. 37 (1966) 4586. Terasaki, T., T. hlurakami, H. Toyoda: Rev. Elec. Commun. Lab. (Tokyo) 14 (1966) 425. Thomas, D. J. D.: Phys. Status Solidi 13 (1966) 359. Tramposch, R. F. : Appl. Phys. Letters 9 (1966) 83. \-rics, R. C. dc: Gen. Elcc. Tech. Inform. 66 (1966) 238. \Veinstein, hl., G. A. \Volff in: Proc. Intern. Conf. Crystal Growth, Boston 1966, 537. Zimmcr, P. W.: Am. hlincralo@st 51 (1966) 1563.

Alferov, 2. I., D. 2. Garbuzov, J. V. Ziljacv, M. K. Trukan: Kristall Technik 2 (1967) 541. Altmann, I.: Kristallografiya 4 (1967) 694. Au@, B., D. Vigncr, R. Riwan: Compt. Rend. 264 (1967) 809. Bradshaw, S. E.: Intern. J. Electron. 23 (1967) 381. Chopra, K. L., hl. R. Randlett, R. H. Duff: Phil. Mag. 16 (1967) 261. Constantin, C., R. Cinti, R. Montmory: Vide 22 (1967) 105. Doo, V. Y., E. 0. Ernst: Scmicond. Prod. 10 (1967) 31. Dovgoshei, N. I., U. A. Gryadil: Soviet Phys-Cryst. (English Transl.) 12 (1967) 123. Filby, J. D., S. Nielsen, J. Rich, G. R. Booker, J. hf. Larcher: Phil. Msg. 16 (1967) 565. Gebhardt, hr., in: Protection Against Corrosion by Metal Finishing, Forster Verlag, Zurich

1967, 323. Gebhardt, hr.: Deut. Farbcn-2. 21 (1967) 630. Gebhardt, hI. : Metallobcrflachc 21 (I 967) 170. Gebhardt, hl.: Chcm. Ing. Tech. 39 (1967) 825. Gebhardt, hl.: Farbc Lack 73 (1967) 1046. Gillet, E., J. F. Roux ,M. Gillct: Bull. Sot. Franc. Mineral. Crist. 90 (1967) 54. Grigoriev, D. P., V. G. Lushnikov: hlincral. Symposium (Sbornik, Lwow) 21 (1967) 62. Halprm, V.: J. Appl. Phys. 18 (1967) 163. Hcilmann, P., E. h1. Hoerl: Physik. Verhandl. 18 (1967) 322. Holt, J. IV.: J. Iron Steel Inst. (London) 205 (1967) 779. Ino, S., S. Ogawa: J. Phys. Sot. Japan 22 (1967) 1365. Karioris, F. G., J. J. Woyci, R. R. Buckrcy: Advan. X-Ray Anal. 10 (1967) 250. hIcKinnon, M. C., B. A. MacIvcr: J. Appl. Phys. 38 (1967) 4924. Klebcr, W., I. Mictz, U. Elsasscr: Kristall Technik 2 (1967) 327. Kleber, W. : Kristall Technik 2 (1967) 5. Klebcr, W., I,. Ickcrt, E. Ahrcns: Kristall Technik 2 (1967) 33. Kleber, W., W. Schmitz: Kristall Technik 2 (1967) 47. Klebcr, W., W. Schocnbom, R. W’aesch: Kristall Technik 2 (1967) 16 7. Korckawa, hl., K. L. Weiner, D. Wolf: 2. Krist. 125 (1967) 226. Kurbatov, B. S., E. V. Rakova, G. A. Kurov: Soviet Phys.-Cryst. (English Transl.) 12

(1967) 140.

Gebhardt \Neuhaus

6 References

67 Lac Lachapelle, T. J., A. Miller, F. L. Moritz: Progr. Solid State Chem. 3 (1967) 1. 67 Laf Lafourcade, L., C. Bonafous, P. Larroque, B. Legros: J. Microscopic 6 (1967) 431. 67 Li$ Lippmann, H., L. Wauer, W. Kosak: Proc. 2. Colloq. on Thin Films 1967, 434. 67 Lud Ludeke, L., W. Paul: Phys. Status Solidi 23 (1967) 413. 67 Mag I Magomedov, K. A., N. N. Magomedov: Soviet Phys.-Cryst. (Engl. Transl.) 12 (1967) 286. 67 Mag 2 Magomedov, 2. A., S. A. Semiletov: Soviet Phys.-Cryst. (English Transl.) 12 (1967) 470. 67 Mar Mariano, A. N., K. L. Chopra’: Appl. Phys. Letters 10 (1967) 282. 67 Maz Mazaud, J. C.: Compt. Rend. 264 (1967) 1032. 67 Mei Meischner, P.: Physik. Verhandl. 18 (1967) 286. 67 Moi Moineau, H., R. Baro: Compt. Rend. 264 (1967) 432. 67Mor 1 Morante, M., F. Arrese, J. Rodriguez: Anales Edafol. Agribiol. (Madrid) 26 (1967) 1. 67 Mor 2 Morante, M., F. Arrese, J. Rodriguez: Anales Edafol. Agrobiol. (Madrid) 26 (1967) 219. 67 Pal Palmberg, P. W., T. N. Rhodin, C. J. Todd: Appl. Phys. Letters 11 (1967) 33. 67Per 1 Pernoux, E., P. Merle: Compt. Rend. 265 (1967) 960. 67 Per 2 Persson, A., C.-E. Blomquist, H. Norden: K. Svenska Vet. Akad. F. Fys. 35 (1967) 129. 67 Rei Rkimer, L., W. Herrmann, H. Kappert: Epitaxie von Metallaufdampfschichten, West-

deutscher Verlag Kbln-Opladen 1967. 67 Riw 67 Sch 67 Sha 67 Sig 67SPi 1 67 Spi 2 67 Str 67 Tre 67 Vor 67 Wav 67 Wil

68 Abb 68 Ada 68 And 68 Alt

Riwan, R., B. Augin: Compt. Rend. 264 (1967) 725. Schoenborn, W., R. Waesch: Kristall Technik 2 (1967) 101. Shannon, R. D. : J. Am. Ceram. Sot. 50 (1967) 56. Sigmund, H., K. Berchtold: Phys. Status Solidi 20 (1967) 255. Spiegel, K.: Physik. Verhandl. 18 (1967) 27. Spiegel, K.: Physik. Verhandl. 18 (1967) 179. Strauss, A. J.: Phys. Rev. 157 (1967) 608. Trepte, L., Chr. Menzel-Kopp, E. Menzel: Surface Sci. 8 (1967) 223. Voronova, I. D., G. Chaplygin: Soviet Phys.-Cryst. (English Transl.) 12 (1967) 99.’ Warschawskij, A. V., J. F. Schulpjakow: Dokl. Akad. Nauk SSSR 173 (1967) 573. Willems, J. : Experientia 23 (1967) 409.

Abbink, H. C., R. M. Broudy, G. P. McCarthy: J, Appl. Phys. 39 (1968) 4673. Adam, R. W.: Z. Naturforsch. 23 (1968) 1526. Andersson, S., I. Marklund, J. Martinson: Surface Sci. 12 (1968) 269. Altman, L. V., E. N. Vorontsova, Yu. V. Ruban, G. P. Tikhomirov: Soviet Phys.-Cryst.

(English Transl.) 12 (1968) 601. 68 Avk Ark, H. J. van, J. van de Rotte: Vakuum-Tech. 17 (1968) 173. 68 Awn Armstrong, R. A. : Bull. Radio Electr. Engng. Div., Nation. Res. Count. Canada 18 (1968) 19. 68 Aud Audisio, S.: Theses Faculte des Sci. de l’Univ. Lyon 1968. 68 Bak Bakker, L.: Z. Physik 212 (1968) 104. 68 Bar Bartlett, B. M.: Inst. Radio Electron. Engrs. Austral. Proc. 29 (1968) 177. 68 Bed Bedair, S. M., F. Hoffmann, H. P. Smith jr.: J. Appl. Phys. 39 (1968) 4026. 68 Ben Ben-Sira, M. Y., S. Bykshpan: J. Cry& Growth 2 (1968) 249. 68 Ber Berkenblit, M., A. Reisman, T. B. Light: J. Electrochem. Sot. 115 (1968) 966. 68 Bil Bilenkii, B. F., A. G. Mikolaichuk, D. M. Freik: Phys. Status Solidi 28 (1968) K 5. 68 BOY 1 Borchardt-Ott, W. : J. Cryst. Growth 2 (1968) 199. 68 Bor 2 Borchardt-Ott, W.: Neues Jahrb. Mineral. Monatsh. 1968, 241. 68 BOY 3 Borom, M. P., A. Pabst: Gen. Elec. Technical Information Series, Rept. Nr. 68-C-093 (1968) 1. 68 Bou Boutry, G. A., H. Dormont,‘J. C. Richard, P. Saget: Compt. Rend. B 267 (1968) 155. 68 Bra Brady, L. E., J. W. Castle, J. F. Hamilton: Appl. Phys. Letters 13 (1968) 76. 68 Bri Brisbourne, R. H., D. White: Ber. Deut. Keram. Ges. 45 (1968) 260. 68 Bur Burns, J. W.: Trans. Met. Sot. AIME 242 (1968) 432. 68 Cad Cadoret, M.: These Doct. Sci. Phys. Caen 1968. 68 Cal Calow, J. T., S. J. T. Owen, P. W. Webb : Phys. Status Solidi 28 (1968) 295. 68 Cam. Campbell, B. D., H. E. Farnsworth: Surface Sci. 10 (1968) 197. 68 Car I Cardoret-Bouillet, M. : These Doct. Sci. Phys. Caen C.N.R.S. 1968, 72. 68 Car 2 Carr, S. H., A. G. Walton, E. Baer: Biopolymers 6 (1968) 469. 68 Cav Caveney, R. J.: J, Cryst. Growth 2 (1968) 8.5. 68 Cha Chadderton, L. T., M. G. Andersen: Thin Films 1 (1968) 229. 68 Das Dasgupta, D. R.: Z. Krist. 126 (1968) 330. 68 Dav Davey, J. E., T. Pankey: J. Appl. Phys. 39 (1968) 1941. 68 Dio Dionne, G.: J. Appl. Phys. 39 (1968) 2940. 68 Dri Drift, A. van der, T. Horsman, C. Langereis: Philips Res. Rept. 23 (1968) 48. 68 Dru Drum, C. M., C. A. Clark: J. Electrochem. Sot. 115 (1968) 664. 68 Efr Efremenkova, V. M., V. E. Jurasova: Izv. Akad. Nauk SSSR Ser. Fiz. 32 (1968) 1056. 68 El1 Ellis, W. P., B. D. Campbell: Trans. Amer. Crystallogr. Ass. 4 (1968) 97. 68 Fav Farnsworth, H. E., J. Bellina jr.: Trans. Amer. Crystallogr. Ass. 4 (1968) 45.

Land&-BGmstein, Neue Se& III/8

Gebhardt /Neuhaus 12

15s 6 Literatur

68 Fis 68 Flo 68 Fri 68 Gal I 68 Gnl2 68 Grill 3 68Gel, I 68 Geb 2 68 Geb 3 68 Get 68 Gio 68 Grtp 68 Hna 68 Hnc 68 Hot 68 HeIt 68 Hey I 68 Hey 2 68 Hoe 68 Ho1 I 68 Hoi 2 68 Ho1 3 68 Hoi, 68 ICJI 68 Id0 68 Im 68 ISJI 68 Ilo I 68 Ilo 2 68 III 68 Jne 68 Jni 68 Jes 68 Jon 68 Knvt

68 A-d i 68 h-at 2 68 Iiet 68 Kir 68 h-m I 68 Iira 2 68 K1rr 68 h-uitt 1 68 Iiwnr 2 68 Lei 68 Lig I 68 Lig 2 68 Len 1 68 Lort 2 68 Lt1s 68 hind 68 hInn 1 68 hfatt i 68 hfat 68 hlns 68 hZn\ 68 Ale; 68 Ale1 68 Men 68 AIic 68 itlif 68 Milt 68 illor

Fischer, D.: RIatcr. Res. Bull. 3 (IgGS) 759. Flocgcl, P. : Kristall Technik 3 (196s) 161. Fricser, R. G-: J. Electrochem. Sot. 115 (196s) 401. Galli, G., R. E. Holmes: Electrochem. Technol. 6 (196s) 358. Galloni, E. E., R. Zimmcrmann: Phys. Status Solidi 29 (1968) K 91. Gallon, T. E., I. G. Higginbotham, M. Prutton, H. Tokutaka: Thin Solid Films 2 (196s) 369. Gebhardt, RI. : Fachbcr. Oberflachcntcchn. 6 (I 965) 7. Gebhardt, hI. : Farbe Lack 74 (196s) 217. Gebhardt, BI., A. Neuhaus, W. Blucthgcn: Fachber. Obcrflachcntechn. 6 (196s) I I 5. Gerasimov, Y. RI., G. I. Distlcr: Natunvissenschaften 55 (1968) 132. Gioranoli, R., 11’. Feitknecht, W. Fahrer: J, Microscopic 7 (1968) 177. Gupta, D. C., Pei Wang: Solid State Technol. 11 (196s) 4s. Haas, T. W. : J. Appl. Phys. 39 (196s) 5854. Hache, Ch., H. H. W. Prcuss: Kristall Technik 3 (1968) K 57. Harsdorff, 31.: 2. Naturforsch. 23a (196s) 1253. Henning, C. A. 0.: Surface Sci. 12 (196s) 30s. Heywang, n’.: Mater. Res. Bull. 3 (196s) 315. Heyraud, J. C., L. Capella: J. Cryst. Growth 2 (196s) 405. Hiihnc, G., G. Klipping, J. Ludewig, A. Tippc, H. Walter: 2. Angew. Phys. 25 (196s) 250. Holloway, H.: J. Phys. Chcm. Solids 29 (196s) 1977. Holloway, H., L. C. Bobb: J. Appl. Phys. 39 (196s) 2467. Holloway, H., E. Wilkes: J. Appl. Phys. 39 (196s) 5807. Hopkins, R. H., R. W. Kraft: Trans. Met. Sot. AIhIE 242 (1968) 1627. Ichikawa, T., S. Ogawa: Japan. J. Appl. Phys. 7 (196s) 1318. Ido, T., S. Oshima, M. Saji: Japan. J. Appl. Phys. 7 (196s) 1141. Inuzuka, T., R. Ueda: Appl. Phys. Letters 13 (1965) 3. Isherwood, B. J., C. A. Wallace: J. Appl. Cryst. 1 (196s) 145. Ito, K., I\‘. Takahashi: Japan. J. Appl. Phys. 7 (196s) 821. Itoh, T., S. Hasegawa, H. Watanabe: J. Appl. Phys. 39 (1968) 2969. Itterbcek, A. van, R. Coppens, 1%‘. Hendriks-van It&beck: Physica 40 (196s) 77. Jaeger, H., P. D. Merger, R. G. Sherwood : Surface Sci. 11 (1968) 265. Jain, R. K., G. C. Trigunayst: J. Cryst. Growth 2 (19GS) 267. Jesser, \I’. A., J. W. Matthews: Acta Met. 16 (IgGS) 1307. Jones, R. R., R. W. Kraft: Trans. Met. Sot. AIhIE 242 (1968) 1891. Kamadjicl-, P. R., S. S. Simeonov, L. K. Mladjov: Compt. Rend. Acad. Bulgare Sci. 21 (196s)

1265. Kato, T.: Japan. J. Appl. Phys. 7 (196s) 1162. Katz, G.: Appl. Phys. Letters 12 (196s) 161. Kern, R., A. Nasson, J. J. Metois: Compt. Rend. B 267 (196s) 142. Kirk, R. S.: Mol. Cryst. 5 (196s) 211. Kramar, J.: Electrotech. Obzor, Ceskosl. 57 (196s) 476. Krause, G. 0.: J. Appl. Phys. 39 (196s) 2469. Kuehn, I,.: Katunvissenschaften 55 (196s) 176. Kumagava, PtI., H. Sunami, T. Terasaki, J. Kishizawa: Japan. J. Appl. Phys. 7 (1965)1332. Kumashiro, I’. : J. Electrochem. Sot. Japan (Japan. Ed.) 36 (196X) 10. Leibovich, H. A., R. S. de Zimmerman: J. Appl. Phys. 39 (1968) 590s. Light, T. B., E. hI. Hull, R. Gercth : J. Electrochcm. Sot. 115 (1968) 857. Light, T. B., RI. Berkenblit, A. Reisman: J. Electrochcm. Sot. 115 (196s) 969. Lonsdalc, K.: Sci. Am. 219 (196s) 104. Lonsdale, K.: Nature 217 (196s) 56. Lus, B., I\‘. Kurz: Iron Steel Inst. (London) 110 (196s) 193. hIadis, R. J., R. Korus: Trans. Faraday Sot. 64 (196s) 2514. hlanasrvit, H. hr., F. I,. Morritz, D. H. Forbes: Trans. Met. Sot. AIME 242 (1965) 75. RIanasevit, H. hI., R. I,. Noldcr, L. A. Mowdy: Trans. Met. Sot. AIME 242 (1968) 465. hlarcus, R. B., S. Quiglcy: Thin Solid Films 2 (1965) 467. hlasson, A., J. J. Mctois, R. Kern: Compt. Rend. B 267 (1965) 64. bray, J. W., I,. H. Germcr: Surface Sci. 11 (196s) 443. BIeicran, E. S.: Trans. hIet. Sot. AIME 242 (196s) 413. htIclcsko, L. 0.: Kristall Technik 3 (196s) 355. RIendclson, S.: J. Appl. Phys. 39 (196s) 2477. hIichcl1, D., A. P. Smith: Phys. Status Solidi 27 (196s) 291. BIietz, I.: Kristall Technik 3 (196s) 177. hlihama, I<., M. Tanaka: J. Cryst. Growth 2 (196s) 51. hIorantc, RI., F. Arrese, J. Rodriguez: Bol. Geol. Mincro 79 (196s) S4.

Gebhardt /Neuhaus

6 References 159

68 MYO 68 Nen 68 Neu I

68 Neu 2 68 Nie 68 Noh 68 O’Ne 68 Pal 68 Pap 68 Per 68 Pet 68 Pol I 68 Po12 68 Pur 68 Rei 68 Rob 68 Rov 68 Run 68 Sak 68 Sat 68 Sch 68 Sek 68 Sha 68 Sei 68 spi 68 SW 68 Tak 68 Tot 68 Usj~

68 Vi1 68 Vla 158 Voc 68 Wat 68 Wei 68 Whi 68 Wil 68 Wol 68 woo 68 Yas 68 Zem

69 Abe 69 Ait

69 Alf

69 Ant 69 Ari 69 Bai 69 Bar 69 Bol 69 Buj 69 Bur I 69 BUY 2 69 Ca$ 69 Car 69 Cho I 69 Cho 2 69 Cho 3 69 Cho 4 69 Clo 69 Dat

‘69 Due

Mroczkowski, R. S., A. F. Witt, H. C. Gatos: J. Electrochem. Sot. 115 (1968) 750. Nenow, D., E. K. Dukova: Kristall Technik 3 (1968) 525. Neuhaus, A., M. Gebhardt in: Interface Conversion for Polymer Coatings, Elsevier, New

York-London-Amsterdam 1968, 91. Neuhaus, A., M. Gebhardt : Nova Acta Leopoldina 34 (1968) Suppl. I, 208. Niedermeyer, R. : Thin Films 1 (I 968) 25. Nohara, A., S. Ino, S. Ogawa: Japan. J. Appl. Phys. 7 (1968) 1144. O’Neal, J. E., F. W. Leonhard: J. Cryst. Growth 2 (1968) 85. Palmberg, P. W., C. J.‘Todd, T. N. Rhodin: J. Appl. Phys. 39 (1968) 4650. Papazian, S. A., A. Reisman: J. Electrochem. Sot. 115 (1968) 961. Perrin, J., L. Capella: Compt. Rend. 267 (1968) 218. Petrov, T. G., A. P. Kasatkin: Soviet Phys.-Cryst. (English Transl.) 12 (1968) 647. Pollard, J. H., W. E. Danforth: NY0 3830-6, Conf. 680-611-2, 26 (1968) [Microfiche]. Pollard, J. H., W. E. Danforth: J. Appl. Phys. 39 (I 968) 4019. Purchit, R. K. : J. Mater. Sci. 3 (1968) 330. Reiss, H.: J. Appl. Phys. 39 (1968) 5045. Robbins, K. G., J. M. Thomas: Nature 217 (1968) 1251. Rovida, G., E. Zanazzi: Ric. Sci. 38 (1968) 356. Rundle, P. C.: Intern. J. Electron. 24 (1968) 405. Sakai, Y., H. Fukuda: Japan. J. Appl. Phys. 7 (1968) 303. Satake, T., M. Kamoshida, T. Okada: Japan. J. Appl. Phys. 7 (1968) 785. Schneider, H. G. : Neue Hiitte 13 (1968) 501. Seki, H., M. Kinoshita: Japan. J. Appl. Phys. 7 (1968) 1142. Shaw, D. W.: J. Electrochem. Sot. 115 (1968) 405. Seifert, H.: Kolloid-Z., 2. Polymere 224 (1968) 97. Spindler, H., K. Baginski: Chem. Tech. (Berlin) 20 (1968) 548. Suryanarayanan, R., C. Paparoditis: J. Phys. (Paris) 29 (1968) 46. Takei, H., S. Koide: J. Phys. Sot. Japan 24 (1968) 1394. Toth, R. S., L. J. Cicotte: Thin Solid Films 2 (1968) 111. Uspenskaya, G., V. Shabanov, U. A. Tolomasov: Soviet Phys.-Cryst. (Enlgish Transl.) 12

(1968) 827. Villafafilla, P., F. Arrese, J. Rodriguez: Bol. Real Sot. Espan. Hist. Nat. 66 (1968) 117. Vlasov, V. A., S. A. Semiletov: Soviet Phys.-Cryst. (English Transl.) 12 (1968) 645. ‘, Vock, R. W., M. A. Otooni: J. Appl. Phys. 39 (1968) 2471. Watts, B. E., R. R. Bradley, B. A. Joyce: Phil. Mag. 17 (1968) 1163. Weigel, L., K. H. Moehler, H. Diergarten: Naturwissenschaften 55 (1968) 649. Whitmell, D. S.: Surface Sci. 11 (1968) 37. Wilson, A. J. C. : J. Appl. Cryst. 1 (1968) 194. Wolley, E. D., R. Stokler, T. L. Chu: J. Electrochem. Sot. 115 (1968) 409. Woodman, T. P.: Diss. Doct. Techn. Sci., Zurich 1968. Yasuda, Y. : Japan. J. Appl. Phys. 7 (1968) 1171. Zemel, J. N.: J. Phys. (Paris) Colloq. 4 (1968) 9.

Aberdam, D., G. Bouchet, P. Ducros, G. Grunberg: Surface Sci. 14 (1969) 121. Aitkhozhin, S. A., I. M. Kotelyanskii, G. B. Bokii, V. F. Dvoryankina, G. G. Dvoryankina,

V. V. Panteleev: Soviet Phys-Cryst. (English Transl.) 14 (1969) 309. Alferov, 2. I., V. M. Andreyev, V. I. Korol’kov, E. L. Portnoi, D. N. Tret’yakov: Kristall

Technik 4 (1969) 495. Antcliffe, G. A., H. Kraus: J. Phys. Chem. Solids 30 (1969) 243. Arizumi, T., T. Nishinaga, M. Kasuga, H. Ogawa: Japan. J. Appl. Phys. 8 (1969) 32. Bailly, F., G. Cohen-Solal, L. Svob, Y. Marfaing: Compt. Rend. C 269 (1969) 456. Barua, K. C., A. Goswami: Surface Sci. 14 (1969) 415.

’ Bolkhovityanov, Y. B.: Soviet Phys.-Cryst. (English Transl.) 13 (1969) 801. Bujor, M., R. W. Vook: J. Appl. Phys. 40 (1969) 5373. Burmeister, R. A. jr., G. P. Pighini, P. E. Greene: Trans. Met. SOC. AIME 245 (1969) 587. Burmeister, R. A. jr., R. W. Regehr: Trans. Met. Sot. AIME 245 (1969) 565. Capart, G.: Surface Sci. 13 (1969) 361. Carr, S. H., W. C. Colket: J. Colloid Interface Sci. 31 (1969) 328. Cho, A. Y.: Surface Sci. 17 (1969) 494. Chopra, K. L. : Phys. Status Solidi 32 (1969) 489. Chopra, K. L., in: Thin Film Phenomena, Chap. 4, McGraw-Hill Book Co., New York 1969. Chopra, K. I,., S. K. Bahl: J. Appl. Phys. 40 (1969) 4171. Clough, R. B., J. J. Tietjen: Trans. Met. Sot. AIME 245 (1969) 583. Datta, N., S. Chatterji, J. W. Jeffery, A. L. Mackay: Mineral. Mag. 37 (1969) 250. Duemler, I., P. Kittl: J. Mater Sci. 4 (1969) 89.

,

Gebhardt /Neuhaus 12”

160 6 Literatur

69 Gad 69 Gib

69 Gil 69 Go1 69 Gos 69 Gun 69 Gm I 69 Gvzr 2 69 Grq 69 Grq 69 Ha )I 69 Ho1 69 Han 69 Jac 69 Jes 69 Jow 69 Jo3 69 Kaf 69 Ken

69 Kka 69 Kit 69 Kle 69 Kli

69 Koo 1 69 Kov 2 69 Km 69 Ma1 69 Ma 11 69 Olin 69 Mos 69 Nag 69 Na r 69 Oga 69 Ohf 69 One 69 Pt.11 69 Pos

69 Rai 69 Reu

69 Ro: 69 Sch 69 Sei 69 Shn 1

69 Sha 2 69 Shi 1 69 Slri 2 69 $5, 69 Sfe 69 Swa 69 Tak 69 Tar 69 Tail 69 Tho 69 Tra 69 Tw 69 Tuf 69 Tur 69 Ued

Gadgil, I,. H., A. Goswami: J. Vakunm Sci. Technol. 6 (1969) 591. Gibcau, P.: Rapp. Final D.G.R.S.T., Action Concertee Electron., Contrat Nr. 67 00 762 00

212, 1969. Gillet, E. : These Doct. Sci. Phys., Aix-Marseille 1969, 12% Golob, P., H. Horn, P. Warbichler: Phys. Status Solidi 35 (1969) 277. Goswami, A.: Indian J. Pure Appl. Phys. 7 (1969) 232. Gradmann, U.: Surface Sci. 13 (1969) 49s. GruCnbanm, E., R. Schwarz: J. Appl. Phys. 40 (1969) 3364. Grucnbnnm, E., G. Kremer, C. Reymond: J. Vakuum Sci. Technol. 6 (1969) 475. Gugcl, E., H. W. Hcnnicke, P. Schuster: Ber. Deut. Kcram. Ges., Heft 9 (1969) 481. Gupta, D. C., R. Yee: J. Elcctrochem. Sot. 116 (1969) 1561. Hanana, T., K. Takeda: Appl. Phys. Letters 15 (1969) 360. Holt, P. B.: J. Mater Sci. 4 (1969) 935. Honjo, G., K. Yagi: J. Vakuum Sci. Technol. 6 il969) 576. Jackson, K. A.: J. Cryst. Growth 5 (1969) 13. Jesser, W. A., J. W. Matthews: J. Cryst. Growth 5 (1969) 83. Jowett, S. W., P. J. DJbson, B. J. Hopkins: Surface Sci. 17 (1969) 474. Joyce, B. A., R. R. Bradlcy, B. E. Watts, G. R. Booker: Phil. Msg. J. Sci. 19 (1969) 403. Katz, G., A. W. Nicol, R. Roy: 2. Kriit. 130 (1969) 3SS. Kcar, B. H., S. M. Copley, M. F. Horn-Beclcer, L. W. Sink: Trans. Met. Sot. ATME 245

(1969) 1361. Khan, I. H., A. J. Learn: Appl. Phys. Letters 15 (1969) 410. Kitada, 11. T. Doi: J. Japan. Inst. Met. 33 (1969) 1115. Klcber, W., I. hlictz, W. Neumann: Kristall Technik 4 (1969) 345. Klimenko, A. P., V. P. Klochkov, N. N. Soldatenko, N. M. Torchun, Y. A. Tkhorik: Soviet

Phys.-Cryst. (English Transl.) 13 (1969) 303. Kovda, A. V., S. A. Semiletov: Soviet Phys.-Cryst. (English Transl.) 13 (1969) 561. Kovda, A. V.: Soviet Phys.-Cry&. (English Transl.) 13 (1969) 79s. Krause, H.: Kristall Technik 4 (1969) 359. RIaleshko, L. O., E. N. Agafonova: Soviet Phys.-Cryst. (English Transl.) 13 (1969) 631. Manasevit, M., W. I. Simpson: J. Electrochem. Sot. 116 (1969) 1725. RIingazin, T. A., E. RI. Smirnova: Soviet Phys.-Cryst. (English Transl.) 14 (1969) 303. Moss, A., B. H. Blott: Surface Sci. 17 (1969) 240. Nagakura, S., K. Wakashima, M. Fukamachi: J. Vakuum Sci. Technol. 6 (1969) 611. Narita, S., B. Choe, H. Harada: Japan. J. Appl. Phys. 8 (1969) 500. Ogawa, S., S. Ino: J. Vakuum Sci. Technol. 6 (1969) 527. Ohtsuki, Y. H., T. Uragami: Phys. Letters 28 (1969) 54j. Onchi, &I., H. E. Farnsworth: Surface Sci. 13 (1969) 425. Politycki, A., H. P. Kehrcr: 2. Metallk. 60 (1969) 17. Postnikov, V. S., V. M. Ivlev, I. V. Zolutukhin: Soviet Phys.-Cryst. (English Transl.) 13

(1969) 306. Rai-Choudhury, P.: J. Electrochcm. Sot. 116 (1969) 1745. Rentzsch, H.: Diplomarbcit 1967 Phys. Fak. Leningrad Staatl. Univ. Nach W. Kleber,

I. blictz, W. Neumann, KristallTcchnik 4 (1969) 345. Rozgonyi, G. A., W. J. Polite: J. Vacuum Sci. Technol. 6 (1969) 115. Schobcr, T.: J. Appl. Phys. 40 (1969) 4658. Seiler, H., P. Reimcrs, R. Indradcv: Mater. Rcs. Bull. 4 (1969) 119. Shalimova, K. V., A. F. Botncv, V. A. Dmitricv, N. M. Satybaev: Soviet Phys.-Cryst.

(English Transl.) 13 (1969) 576. Sharma, S. K., R. P. S. Kushwaha: Surface Sci. 18 (1969) 449. Shinozaki, S., H. Sato: J. Vakunm Sci. Technol. 6 (1969) 534. Shiojiri, >I., S. Maeda, Y. hlurata: Japan. J. Appl. Phys. 8 (19G9) 24. Springthorpe, A. J., R. J. Harvey, B. R. Pamplin: J. Cryst. Growth 6 (1969) 104. Stefaniay, V., J. Kucrty: Phys. Status Solidi 36 (1969) K5. Swanson, T. B., R. N. Tucker: J. Elcctrochcm. Sot. 116 (1969) 1271. Takci, I\‘. J., N. P. Formigoni, RI. H. Francombc: Appl. Phys. Letters 15 (1969) 256. Tarney, J.: Mineral. Msg. 37 (1969) 115. Tax-ard, C., R. A. Bonham: J. Chcm. Phys. A 50 (1969) 1736. Thomas, R. N., RI. H. Francombc: Solid-Stat. Electron. 12 (1969) 799. Tracy, J. C., J. RI. Blakcly: Surface Sci. 13 (19G9) 313. Tsuji, Y., RI. Uda: Trans. Japan. Inst. hIctals 10 (1969) 256. Tuftc, 0. N., E. L. Stclzcr: J, Appl. Phys. 40 (1969) 4559. Turner, P. S., J. BI. Cowley: Acta Cryst. 25 (1969) 475. Uccla, Y.: Japan. J. Appl. Phys. 8 (1969) 1269.

Gebhardt lNeuhaus

6 References 161

Vla Waw Wil Wue Yas Yat Zav

Alb Avi Cad Cas Cha Cho cot cur Geb Gue Jau Kat Mik I Mik 2 Mi?Z Mue Neu Phi Rai I Rai 2 See StY Ten Vla

Wid

Vlasov, V. A., S. A. Semiletov: Soviet Phys-Cryst. (English Transl.) 13 (1969) 580. Wawner, F. E. jr., K. R. Lawless: J. Vakuum Sci. Technol. 6 (1969) 588. Wilkes, P.: J. Mater. Sci. 4 (1969) 91. Wuebbenhorst, R., K. Hart& R. Niedermayer: J. Vakuum Sci. Technol. 6 (1969) 865. Yasuda, Y., Y. Ohmura: Japan. J. Appl. Phys. 8 (1969) 1098. Yates, A. C., R. A. Bonham: J. Chem. Phys. 50 (1969) 1056. Zav’yalova, A. A., R. M. Imamov: Soviet Phys.-Cryst. (English Transl.) 14 (1969) 261.

Albers, W., J. Verberkt: J, Mater. Sci. 5 (1970) 24. Avignon, T., F. Cabane-Brouty: Compt. Rend. 270 (1970) 1009. Cadoret, M. : Bull. Sot. Franc. Mineral. Crist. 93 (1970) 31 I. Caslavska, V., R. Roy: J. Appl. Phys. 41 (1970) 825. Champness, P. E.: Mineral. Mag. 37 (1970) 790. Cho, A. Y. : J. Appl. Phys. 41 (1970) 782. Cochrane, G. : J. Cryst. Growth 7 (1970) 109. Curtis, B. J., H. Brunner: J, Cryst. Growth 6 (1970) 269. Gebhardt, M. : Habilitationsschrift, Bonn 1970. Guehter, J. R., H. R. Oswald: J. Appl. Cryst. 3 (1970) 21. Jaunet, J., P. Haymann: Compt. Rend. 270 (1970) 780. a Katz, G., R. Roy: J. Cryst. Growth 6 (1970) 221. Mikolajchuk, A. G., D. M. Freik: Soviet Phys. Solid State (English Transl.) 11 (1970) 2033. Mikolajchuk, A. G., A. N. Kogut: Soviet Phys.-Cryst. (English Transl.) 15 (1970) 294. Minden, H. T. : J. Cryst. Growth 6 (1970) 228. Miicke, A. : Aufschlul3 21 (1970) 92. Neuhaus, A. : Unveroffentlichte Untersuchungsergebnisse. Philipsborn, H. von: J. Cryst. Growth 7 (1970) 246. Rai-Choudhury, P., E. I. Salkovitz: J. Cryst. Growth 7 (1970) 353. Rai-Choudhury, P., E. I. Salkovitz: J. Cryst. Growth 7 (1970) 361. Seeliger, E. : AufschluB 21 (1970) 86. Strunz, H., Ch. Tennyson, P. J. Abel: AufschluB 21 (1970) 2. )1 Tennyson, Ch.: AufschluB 21 (1970) 82. ’ Vlasov, V. P., Y. M. Gerasimov, G. I. Distler: Soviet Phys.-Cryst. (English Transl.) 15

(1970) 289. Widmer, R., D. P. Bortfeld, H. P. Kleinknecht: J. Cryst. Growth 6 (1970) 237.

*

Gebhardt /Neuhaus

162 7.1 Formelverzeichnis

7 Substanzenverzeichnis - Index of substances Das Substanzenvcrzeichnis bcstcht aus dcm The index of substances consists of the formulae

Formclverzcichnis, 7.1, das alle Substanzcn ent- index, 7.1, containing all substances which appear halt, die als Virt oder Gast in den Epitaxicn in the epitaxies as a substrate or a deposit, erschcincn, und den Kamcnvcrzcichnissen fiir orga- and the indexes of names for organic compounds, nischc Tl-erbindungcn, 7.2, und fiir Rlincrale, 7.3. 7.2, and for minerals, 7.3.

Die halbfctt gesctztcn Ziffcrn gebcn die Tabcl- Figures printed in bold-face types give the lennummem, die folgcnden Zahlcn die Iinmmcrn numbers of the tables, the following numbers give dcr Epitaxicn, in dcncn die Substanz als \Virt oder the numbers of the expitaxies in which the sub- Gast erschcint. stance appears as a substrate or a deposit.

Im Fornwlverzcichnis, 7.1, sind die anorga- In the formulae index,, 7.1, the inorganic sub- nischcn Substanzen alphabctisch nach den Kat- stances are arranged alphabetically according to ionen, die organischcn Verbindungen untci C the cations, the organic compounds are listed under alphabctisch nach ihren weitcren Elemcnten ge- C arranged alphabetically according to their ordnct . further elements.

7.1 Fdrmelverzeichnis - Formulae index

Substanzj \Yirt/ Gast/dcposit

Substanzl Wirt/ substance substrate substance Gast/deposit substrate

4 2: gG..*lG4 2: l...S, 165. 166, 2G0, AgMg 2: 22G. 227 3: G...lS 2S0,2Si, 37% 45% 459, Ag?O 2: 151...154

4S3, 534. 597, 59% 4~8 2:15G1...15Gg 2: isS..-IGO. SG9, 992 GS4...GgS, g27...g2g, 1123,1G14.164~, 1642 1037, liSS.-.1166, 1729, 1743, 1744, 181: 1191, r2GG. 12G7, 1362, Ag,S.Cu,S 2: 155s 1579,1671, lG72, ISOO. Ag,Sb 2: 2140, 2141 2: 164 lS29, ISSO. 2140,2141, Ag,SbS, 2:lSl2...1Sl4 2: 1563. 1749, 1799 2171...2173, 2515..- Ag,SbS, 2: ISlO, IS11 2517. 2625 .

(Age Al) Al

2: 810 2: 221.e.245 2: 261, 342...344, 348

A&Al 2: 109 3: 21 349,497,49S, 535.536

Ag,.41 2: 10s 599, 696~~~700. 930,

AgAs 2: 163 931, 106s. 1192, 1363

Ag,AsS, 2: 17ss 2: 124s, 1511, r7s9, 1364, ISSO, 2174,2175

lS14. lS73, lS74 23S1, 2626, 2627

Al,,[AlO,~ (OH, 2: 2595, 2596 Ag,AuTc, 2: 2037 AgBiS, 2: lS27, lS2S 2: 1745, 1746, lS27,

F),, . Cl - Si,O,,] AlBc[(OH) .SiO,] 2: 2475, 247G

lS2S 4%[W,81 2: 2393 AgBr 2: 115S~~~1170 2: IIO...IIG, S20, 952, AJ[(F,OH), 2:2452..*2456 2: 2357

logs, lOS5~~~1OS9, - SiOJ 3: 607 1172~~~1174, 1GS3, (Al,Fc),[O,.BO, 2: 2593 2639 4: 43

- (SiOJ,l (Al, Ga)As 2: 2126. 212s

4g(Br, Cl) 2: 1039, 1167 AI,Niz 2: 464 4gCN 2: 923, 1007 A’$‘, 2: 130s.. 2: 229...232, 1461. 4gCe 2: 1241, 1242 1347 1496~~~14gS 4gc1 2:1037...1040 2: 40, 117...121, S22, 3: 260

S23, 953, 1042, lOgO... AI( 2: 1499 1094 IIGS, 1654, 2641 AI,[(OH),-Si~O,o] 2: 2477,247s 2: 2478, 2j7S 4: 41 AIOOH 2:1496~~~1493 2: 233, 234, 1332..*

:Ag. Cu),,Sb,S,, 2:1SOS~..iSil 2: 1562, 156s. 1569, 1336, 1439, 1499

174% 1923 Al&O. SiO,] 2: 2325... 2: 2325...2328, 2336, 4gPc,S, 2: 336 233s 24GO. 2461

%,GcS, 2: 1812 3: 598...602

4zJ 2: 1240..-1250 2: 126, 127, 130...134, ;;;$‘2sioz 2: 1350, 2595, 25%

1040, II 69, 1~70,1240, 4 2: 235..-237

1249. 1250, 2536. As 2: 332 2: 53S, 600, 707, 708 2667~~~2669 3: 22 4: 42

932, 1069. 1193, 1673 2144, 251s

Gebhardt /Neuhaus

7.1 Formulae index I63

Substanzj substance

Wirt/ substrate Gast/deposit Substam/

substance Wirt/

substrate Gast/deposit

*s,O, 2: 248, 249, 256, 332, c 2: 246...259 2: 253, 2329, 2632 334, 341, 632, 864, 865, 3: 22, 23 981, 982, 1119...1122, CBr, 3: 355, 429, 457 1219...1222,1547,1605, 5: 117, 146, 258, 27. 1606,1720.~.1723,1777, C6Br402 3: 7, 8, 69, 70 1794, 1795, 1821, 1822, 1857, 2075.a.2080, C&l, 5: 69, 70 3: 73, 74, 365, 409, 2224...2229, 2330, 610, 611 2331, 2454, 2455, 5: 278, 279, 326, 361 2704.a.2706 ww2 5: 61...68 3: 9. IO, 71, 72

-‘WV,, 2: 1790, 1792 5: 325, 364, 372 ASS 2: 1778, 1902 2: 1902 ww2 5: 254 *s,S, 2: 1777 2: 1778 C&1,0 5: 352

3: 404, 405 %CW2 5: 245...251 AsSb 2: 2144, 2145 w&o2 5: 251

+ WW, Au 2: 165...182 2: 6...8, 96, 97, 246,

247, 345, 379, 460, 461, c It 2n+2 H 3: 43, 150, 200, 201,

~~::,~~~64~3~.3.~3~1J GH,), 451 3: 33, 56, 154, 211, 1070...1072, 1194, 235, 238

;;;; ‘,“5;’ ‘1”6”;“4 1365’ 5: 1

(C3H& 3: 59 I > > 1830...1834, 2176... W, 5: 109, 110 2181, 2628, 2629 (2% + W&G 5: 37.8

AuAgTe, 2: 2038 W%) n 3: 107 AuCl 2: 39 Cm% 3: 179, 180, 471, 577 AuCN 2: 95 578 (Au, Cu) 2: 33, 34, 178, 811 5: 78. 87, 97, 177

AuCu, 2: 813 WA, 5: (Au, Ni) 2: 812, 2630 WAS 5: 258 268 5: 82, 92, 181 Au(Pb, Sb, Fe), 2:2036...2038 2: 1892, 1912 C&IO 5: 74, 83, 182, 247

. (Te, 9 ‘4% 5: 322...358 3: 192, 193

11 5: 66, 67, 84, 248 152, Ba 2: 190, 191 249, 342, 362, 374 BaCO, 2: 2279 W=h, 5: 360 5: 144, 344 BaCa(CO,), 2:2274...2278 2: 2002 W&o 5: 361, 362 5: 250, 354 BaCeO, 2: 564 w-52 5: 364...368 BaCI,.2H,O 2: 2109...2113, 2116.a. 2;~ 5: 370 5: 370

2119 18 29 4: 49 3: 146 BaF, 2: 66l.s.678 5: 371...374 5: 68, 346, 3.47, 355 B4N02)2 3: 543 L&s 3: 40, 147, 197 BaO 2: 190, 191 5: 348, 349, 356 BaSO, 2: 1985..* 2: 1781, 2274, 2279 C~sH~6 5: 376...379 5: 34, 36, 110, 150

2002 C,s% + WV 5: 376 3: 486.e.506 WA, + CAP 5: 377

BaSnO, 2: 565 WIG + ‘G-H, 5: 378 BaTiO, 2: 182, 566, 587, 588 WL- + C&W 5: 379 Ba(UO,),[PO,], 2: 2118,2119 C&n 5: 93 .loH,O ‘L%s 3: 41, 148, 198

5: 350, 357 Be 2: 183...186 2: 709*..720, 2631 W-Lx 3: 42, 149, 199 Be0 2:1262...1265 2: 183...186 5: 351, 358

C,WrJ 5: 94 Bi 2: 337...341 2: 721.,.725,936...940, C,H,BrN02 5: 95 5: 126, 328

3: 26 1073, 1367, 1675, 2519 C,H,,BrN,O, 5: 158 5: 5, 9...12, 23, 25, 35, BiPbCuS, 2: 1825 42, 43, 65, 70, 86, 94.a. Bi,S, 2:1821...1824 2: 651, 652, 1731, 96, 105, 111, 112, 129,

1801, 2039 151, 154, 157, 175, 176, Bi,Te,S 2: 2039, 2040 2: 1559, 1769, 1913 184, 190, 195, 201, 203, Bi,Te, 2: 891, 2040 207, 212...214, 226... Bi,Ti,OI, 2: 507, 1288...1292 230, 232.e.234, 239,

Gebhardt /Neuhaus

164 7.1 Formclvcrzeichnis

Substanz/ Wirt/ substance substrate

Z,H,,BrX,O, (Fortsrtzung)

Z8H,BrS0 3,H,Br,h’O

3,H,RrO, ZGHBr,O

Z;H,BrO, ,,H,,BrO

C,H,CaO, S,H,CaO, ,H,CaO,. 4H,O

VW’, ,,H,CI,

=dW

C6H,Cl,h’

V,3H23CIK, Z,H,Cl,h’O E,H,ClKO C6H2ClX,0, C;H,CIPTO, C,H,CI,NO C,OH,,CIN,S

.4H,O C,HCI,O

WWP), C;HCI,O,

WVW, C,,H,ClO,

W%&o%,%,F

C,H,FeO,

‘%.I

5: 22G

5: 35

5: 175 5: 259...262

5: 75, 76

5: 10 5: iS..*lS 5: 74

4: 4s

5: 71,*.73

5: 96

5: 12...14 5: 24 5: 36

Gast/dcposit

244, 252, 257. 259. 2G: ..-270. 315...317. 320 321, 331, 359...361, 363. 367. 369. 373, 375 5: 132, 334 3: 46. IOS, 109. l7S, 39G,397,419,420,49S 499, 526, 576. 680,651 5: 124, 323 3: 11, 75, 7G, 159, 160. 203, 209. 217, 232, 36t 5: 61, 271, 2S0, 2Sl

5: 49...52, 159...162 5: 53, 54 3: 559

3: 99. 3S2 5: 15s 5: 16, 20, 27, 31, 3s 45. 89. 99, 106, i14. iiY#13S, i47,179,186 192, 197, 209, 23G, 241 3: 12. 13, 3G7 5: 63, 272, 2S4. 2S5 3: 694, 695

3: 100, 394, 395, 523 3: 575 3: 543, 544 5: 4s, 222.e.225 3: I, 2, 77..*80, 161, 1G2,204,210,2tS, 233 25% 298...304, 354, 410,42S, 456,45S. 540 560,59S, 603,604,607 612,613, 627, 644, 661 5: 2, 3, 24, 4t, 62, 153 156,231s 273,2S2, 2S3 327 3: 66..*68 3: ys 3: 122 3: 123, 124

3: 330..*351

3: 21, 2S, 29

3: 30. 31, 459.**461, 553. 554, 617

3: 453.e.455

3: 19

3: 27

3: 57, 5s, 155, 156. 2s:

5: 377


C&N C&P + GP,, C&&N, C6H,N, +C,H,O, C&N,

CH,N,O

+ V-W, WWO), C,H,NO C,H,NO,

VLJW, CHNO 5 4 4 3

C H N 0 .2&C) 5 .I I 3 C5H,N0,

WVW,

5: 150

5: 154,155

5: 214

5: 256

5: 263 5: 265 5: 2G7 5: 269

5: 314, 315

5: 375

4: I,‘2 5: 3..*s

5: 1g.a.22

5: 23

5: 25 5: 26...29 5: 30...33 5: 37...40 5: 41 5: 44...47 5: 43

5: 4s 4: 3...jG 5: 49...GO

5: 77...84

Gast/dcposit

5: 64, 163. 215 5: 379 3: 96, 171. 522, 572 5: 155 3: 245, 246. 3S0, 3S1, 404, 405,414, 415. 436, 437. 465*..469. 573, 601, 602, 652, 653

5: 292 5: 79, 246, 339 5: 77

5: so

3: 42j 5: 353 5: 2jl

5: IIS, 253, 255 5: 165, 166, 217, 215 3: 541 5: 172 3: 593

3: 693

5: 171

3: 32, 51.~~53, IS!... 153, 202, 212...214, 234, 236, 237, 671..+ 673 5: s

3: 2hl...272, 631...634

3: 273...2S2, 60S, 618, 619, 625. G2G. 636, 637, G63, 6G4, 667, 66s

3: 2S4...2SG, 63S, 639 5: 123, 322

3: 287. 4SG. 640

3: 22, 44, 45, 63...Gj, ISS, 363, 364,431 I 4S7, 4SS, SOS, 509. jjG... 558, 64 t.s.643 5: 12j, 324

5: 55...60 3: 2ss...29; 3: 36% 393, 483

Gebhardt /Neuhaus

7.1 Formulae index 165

Substanz/ substance

Wirt/ substrate Gastldeposit Substanzl Wirt/

substance substrate Gastldeposit

-

TW,O, 5: 77 WLNO, 5: 359 5: 143, 343 + %H,N WL%O~ 5: 170

VVW, 5: 85...93 3: 81, 82, 83 WW,Os 3: 692 5: 366 LH,,N,O,)n 3: 195

WWP, 5: 97 3: 369, 411 WWO, 3: 49, 145, 208 Cd34%O5 5: gs**.105 5: 173 WW, 5: 106.~.108 3: 412 C&W,O, 5: 174, 21g..*221

5: 4, 287 (A$-WG 3: 448 WA0 5: 111 GtP,oW,)n 3: 196, 326...329 V-WV’, 5: 112...116 3: 561 C,H,NO,S.H,O 5: 153

5: 128, 329 GPJW,S 5: 156 3: 97, 172, 307, 678 C,H,NO 5: 151, 152 3: 86-.+5, 163***170, WLN,O,% 4: 37.e.40

21g...224, 23g...244, 5: 15g...162 252.**257, 372...379, CP,,W’,,S 4: 41...47 413, 434, 435, 483... ‘4&,N~OaS 5: 164, 216 485, 493...497. 516.~. ‘L.H,,N,O,S 3: 322 521, 550, 551, 568..+ CH,N,S 5: g 3: 54, 55, 215, 356.~. 571, 599, 600, 648... 361, 391, 392, 406,407, 651 674...677 5: 330 FH30) n 5: I,2 3: 50

G%W, 3: 173...175, 225 WW4 5: 11 5: 289 GH4% 3: 216, 635

VW’, 5: 176 3: 101, 102, 383, 416, C4H40, 3: 6, 60, 157, 362, 408, 524, 525, 679 507, 555

‘7%&O, 5: 177...182 C4’3404 3: 430 C,H,NO 5: lg5.~.200 3: 441 C4JW4 5: 42 3: 61, 62, 609

5: 130, 332 5: 276, 277 C,H,NO 5: 200 C5%P3 5: 72, 183, 189, 371

+ C&O, C5%204 5: 69, 73, 75, 202, 318, VW’, 5: 201...206 3: 105, 176,309,417, 319

L 442, 470 C&3402 3: 370, 371, 432, 462. 5: 131, 290, 333 463, 490, 491

VW% 3: 106, 310, 311, 418 5: 127, 286 WdV’ 5: 207 C&f,O, + WW 5: 122 Q%N,O, 5: 208..*211 W%‘, 5: l17..*i45 3: 34, 84, 85, 305, 306 WWO, 3: 384 433, 464, 482, 492,

5: 291 511...515, 545***549, CsH,NO ~ 5: 228 562,.-566, 594...596, C,HIoN40,. H,O 5 : 229 645...647 VWW, 5: 230 5: 134, 336 5: 85, 256, 288, 314 G&W,), 5: 231 WW, 5: 8 G%N% 3: 177, 312 + WW C,H,NO 5:

\ 233 WW, + C5H402 5: 122

C&W0 5: 235...243 5: 136, 338 W-W, 5: 200 WW% 3: 313 + C&NO WWd’, 5: 244 WV=, 5: l46...14g 3: 567 WW% 3: 314 G%+34 5: 157 WW,% 5: 252 3: 35, 110, 111 ‘3-L% 3: 574 WW’, 5: 295 GH,O, - 3 H,O 5: 163...174 %% NO, 5: 257 Wd’, 5: 183..*188 3: 103,438,439,440 W%NO 3: 472, 68i WW, + C&W, 5: 155

5: 71, 76 WW, 5: 18g...lg4 3: 104, 308, 597 WWW, * Hd’ 3: 320 5: 6 %% W’ 5: 266 WW, 5: 212 WWd’, 5: 270 G.H4% 3: 654 F4-WWG)n 5: 271...274 3: 186, 226, 321 G’W4 5: 215...225 WWW,) n 3: 187 WW, 5: 227 5: 133, 335 W%NO 5: 316 C8H,404 5: 232 5: 135, 337 WLW 5: 317 WW, 5: 234 W%PO, 5: 321 5: 142, 341 LFC@, 3: 112...114, 398, 399 Wh&O, 3: 133, 134, 135, 390 421, 500, 527

5: 169, 309 5: 294 293,

Gebhardt INeuhaus

166 7.1 Formclverzeichnis

Substam/ Wirt/ substance substrate

3: 115,116 5:245, 36s 3:ll7...120,1si.-is5

355, 400, 401, 422... 124, 501...504, 52S...

530, 579, 5SO.683 5:29G 3:121

3: 23, 24, 315.**319,

443, 473...478, 5Sl.s. 584, 620.**622, 62S,

655...657, 665, 666

5: 13, 15, 19. 26. 30, 37,44, ss, 9s, 102, 113,

137,17s, 1S5,191,19G> 2o4,2Os,235,240,2GC

5:2G4 5: 14. 17, IS, 21, 22,

2s. 29. 32, 33, 39. 40, 46, 47, 81, 90. 91, 100, 101, 103,104, 107, IOS, 115, 116, 120, 121, l39. 140,14S, 149,1s0,187, ISS, l93,194,l9S,l99 205,206,210,211,237 23S.242, 243, 2Gl,2G:

3: 531, 5ss. 5SG 3: 532, 533. 5s7 3:444

5: 2ij***313

5: 31s

C,;H,,O

VW,% C&,0&

v-v W-G + %I-40

C,H,ZnO,

Ca,(Al,Fe),[O . OH. SiO, - Si,O,]

CaAI,(OH)2 - (AI,Si,O,,)

Ca,Al[(OH), - .41Si,O,,]

Ca&JPHh . SO,], ~24 H,O

Ca,AI,[OH - (Si%M

Ca[A1,Sii0,8] -7&O

C@%% . (OH),.Cl]

CaCO,

5: 319,320

3: 323, 324

3:25.26,36,37,47,125 12G.1S8,189,205.227 22S,247,24s,259,2GO

325,352,353,3sG. 445 446,452,479...451,

505.506,534, 552, 56s 5S9,605,6OG,Gl4***6l6 629, 630, 65%..660 5:2i4, 297,298 3: l27,12s

5: 299, 300

3: 3...5. l4...17, 3s,

39. 4% 129, 13% l3f 190,191,2OG,207,229 230.249.250, 3s7.s. 3S9.402,403,42G,427

535...538, 590. 670, 6S4...6SS 5:14t,l67,16S,301~.

304. 340 3: 132, 6S9...691 5: 305. 306 5: 307, 30s 3: l36...139. 539, 540 5: 310...312 3: 140, 141, 623, 624,

661. 662 3: 142, l94,23l,251 3:143 3:144

3: 542, 591, 592

(Ca, Ce),(Al, Fe), . [O.OH-SiO, . Si,O,]

CaCc[F- (CO,),] CaCe,[F,- (CO,), %WF3

* W,M CaCl, Ca,[Cl- (OH),

. %P,l CaF,

Gast/deposit Substam/ Wirt/ substance substrate

CaFc,[OH. 0 . Si,O,]

Ca,H,[CO,. SO, + SiO,] - 13 I-I,0

CaHPO,

CaHPO,. 2H,O

WW’04h -sH,O

CaT,iAI,[(OH), . AlBcSi,O,,]

(Ca, bfg, Al),-, - VW,-4 - Si20101

Gebhardt /Neuhaus

5: 363 5: 369

5: 7

3:449 5: 145. 345

3:is 3:450 5:313

4: SO...63

5:213

5: 34

2:2453...

2485 3: GIG

3: 663.e.665

3: 447

5:109 5:37G

3: 20

2:24sO

2: 2iS2

2:2018, 201

2:2484, 2455

2:2502

2: 2796 2: 2796

2:2162...227

3: 553..*593

2: 2480,24s'

2: 2010..-2013, 2165...

2169, 2255.**2259. 2277, 2278.2355. 2464,.*2471, 2501, 2510,2GO2~~~2GO4,2i49 4: so...61 2:24s3

2:2295 2:2292 2: 2293, 229

2:2292, 2294 2:2293

2:1041 2:2796

2: 597..*660 3:44...49

2:24s6

2: 2796

2:S31,832,1591,2l93

2: 2018, 2019

2:2103

2:209G, 2097 4: 67 2:200,410.2094,2095 4: ll.~-ls, 66 2:209s, 2099 4: 19...22, 6s

2:22G5

2:2594

Gast/deposit


Gast/deposit

2: 2114, 2115

2: 657, 658,1489,1490 2817, 2818

2: g, 221 2: 2283

2: 207...212 2: 214..-216 2: 161, 162, 217...220 285...287, 878, 879, 1337, 1571***1573. 1643.e.1648, 1657... 165% 1740...1742, 2122...2125, 2143, 2724 4: 46 2: 273, 274, 586, 642 es.644, 674...677, 880 --G383, 997, 1066, 1067, 1127, 2026, 2740 2: 892...894, lOOl**- 1004, 1129, 1130

2: 2481

2: 2291 2: 2295

2: 10...12, 98, 167, 168, 500, 726...733, 1269 2: 1942, 1943 2: 1881 2: 1025.**1027 2: 381, 514 2: 1293 2: 405 2: 450...454, 456 2: 382, 455, 457 2: 1921

2: 13...16, 734...740

2: 347 2: 1322, 1413...1416, 1445 2: 213, 346, 1433, 1434

2: 359, 360 2: 122, 123, 543, 824, 1022, 1095,2044,2045, 2186...2188, 2645s.. 2648 2:1i4,125,544,545,825, 1023, 1024, 1096, 1148 *..I 150, 2046, 2047, 2189...2191, 2312, 2313, 2649, 2650 2: 1969, 1973, 2804 2: 826, 954, 1692, 2192


P, Mg, Fe, Mn), * PO412

W%,UOH~ Fh . %%I

CaMg[Si,O,]

CaMn[Si,O,] W, Mn)JSi,O,l CaMn,[Si,O,,] 0, W&U Mg . Pi, A1),0,1

(Ca, Na, Fe, Mg, ’ Ti, Al) [(Si, Al), * %I

Ca,NaH[Si,O,] 0% W,Pk Al, Fe)d(OH~ Fh - (Si AW,,l

(Ca, Na, Mg, Al, FMW, AW,)

(Ca, Na),(Nb,Ta) . [CO, OH, F) .O,

0% Na) Wi, Al), * %I

9, Na, U),(Nb, Ta, Ti),P,* (0, OH, F)]

,Ca, Na, Y),(Ti, Zr, Ce) [(F, OH, Oh- SW,1

:a0 :a(OH), W.(OH, CO,) * PO,hl &WH, F) . (p%h1

Za,[SilOI,,]-4-H.& , CaO - SiO, WPO,), Ca, Pb)CO, :aSO, ZaSO, .2 H,O

:aSn(BO,), Za,[Si,O,] :aTiO, Ca, U),(Nb, Ta, Ti),P,. (0, OH, F)l :aUO, :a[UO,. PO& -2.-6H,O

2:2156..,216, 3: 546...552 2: 2091, 209:

2: 2490

2: 2317-l 2320 2: 2343

2: 2344, 234, 2: 2450, 245,

2: 2379

2: 2482, 277: .**2785 3: 629 2: 2434.h. 2445

2: 2448

2: 1426, 142;

2: 2597

2: 1495

1:2094...2095

!: 2510 !:2314...2316

!: 2284 1: 456 !: 2008... !015 1: 457...481 !: 2794, 2795 !:2321...2324

I: 1425

I: 2116,2117

Gast/deposit

2: 2317

2: 2262, 2618

2: 2319

2: 2344

2: 2343

2: 2605

2: 2375, 2376

2: 2322...2324 2: 1483, 2159, 2264, 2377,2379.2380,244: 2444, 2488, 2790 2: 2321, 2372, 2392, 2400,2425,2450,2451 2487, 2756, 2757, 277 2: 2341

2: 2430, 2431

2: 1501, 1502

2: 1495, 2314.e.2316

2: 2103

2: 2356, 2391, 2422, 2447, 2449, 2490, 2570...2572 4: 3*..10, 37, 38, 62...65

4: 33...36 2: 2284 2: 640, 2009

2: 2273

2: 571, 1463 kc1

2: 65% 660


Ca[UO,. PO,], -1oH,0

CaWO,

2:2112...2111

Cd CdCO,

CdJ,

2: 207...220

2: 1251...125: 3: 258, 259

Cd0

CWW, CdS 2: 1640...166:

CdSe 2: 2026

CdTe 2: 2029, 2030

We, La, Al),[(OH - (WM

Fe, La, Dy)F, (Ce, La, Dy)

* [F. CO,]

CetP0.d

co

CoAs, CoAsS CoCI,. 2H,O C~(F~,CO)~O, ZoFe,O, V02 N ZOO zo30* “o&

Cr ZrBr, 3-N 30,

2: 2291

2: 2093

2: 450..*457

2: 2136 2: 1949.**1g51

2: 1947, 1948

!: 342...347 !: 1171

!: 1433,1434

h-,0,

:S

:sBr

1: 1020,1021 I: 209, 210

k,CrO, :sF

1:2809...2811

Gebhardt INeuhaus

168 7.1 Formelverzcichnis


kN0, kPF, k,SO,

:U

I: l973...197i

I: 1...95 I: I...5

,cu, Al) :u.41, hQ.41, :u~AsS,,,~ Iu3.4sS4 &Au $TliS, 3%

cAlco,.cu(oE-I), 2CuCO,.Cu(OH) CUCI CuCI,.2H,O Cu,(Fc, As, Sn)S, CUFCS2

!: 511, 512 !: 513

2: 1914...193

CuFc,S, 2: r935..*193

Cu,Fc,S, Cu5FeS,

Cu,FeS, Cu,FcSnS, CuGaS, CuJ (Cu,NII,KI

.2II,O

cue CU,O

2: 1668..*167

2: 1261 2:125S...l26’

Cu(OlI), Cu,(OH),ClO, Cu,(OI-I),F cu,~(oH),.No,J CuJ(OH),. SO,! CuPbSbS, CUTd cus

2: 1536 2: 679 2: 20% 2: 2021 3: 42s 2: 533 2:l547..*l55

cu s 1.96‘ CU

1.0;’

cu,s

Gast/dcposit

I: 546, 547, 827, 1097 2651...2654 2: 2559...2562 2: 2535 2: 1970, 19s1, 2004, 2so0, 2sos, 2Sil

2: 99, 100. 169, l/O 358,462,486,4S7, 501 515. SlG, 539.74l*..744 341. lO74. lO75. ll95 1309, 1582~**15S4, 1676, lS35.2520.~.252 2: 513

2: 511, 512 2: l7S4, 17S5

2: Sl4 2: 1560 2: 41, 42 2: 1261 2: 22ss...2290 2: 43, 1602 2: s2s..+?30. 1031 2: 1779, 17SO 2: 645,646,1566.4 56: 16l6...161s,166S,16G! I 735, I 7S2, i 7S3. iso: 1s03,1s08,1809# Ias’ 1S94,1s95,1904,190. 1949, 1950, 1955, 244 2: 1621, 19lS, 1956, 1957 2: 1930, 195% 1959 2: 1481, 1540, 1541, 1551, 1552, 1732 2: l909,19lO 2: 1631, 1632 2: 1625. lG26 2: 46.9.48, 125s 2: 102$..1030

2: 70..*79, l259 2: 49...67. 517, 567, 633, SG6, 2553. 2554 2:679,1536,2iI21,2nS

2: 533 2: SO, l2G0, 1542..* 1545, 1553, 1619, 1621 173% lS25,19OS. 191’ 1917 2: 1653, 1654 2: l54G. 1655, 1656 2: Sl...S7,1554.*-155 1649,1650,1736,l90 1907, 1915


:u,s, !:155i...1560 ilS,?b !: IS00 :u,SbS,,*, !:1so1~~~1so7

:usc :u, c S h,SC,

:u,Sn :uwoJ .(AsO,)],~lOH,C

:u(uo,.Po,), .SH,O

h[UO,-PO,], -1oH,0

:uZn, :u o,64Zno,46 :U wo.65~%,0-0,4

EuTc

1: 2024 1: 2025

2: 2111

2: 2109.2110

2: 515, 516 2: 5l7.a.523

Fe 2: 378...449 3: 28. 29

FcAs, FcAsS

Fe (‘7 Fc,C F&O,

2: 2135 2:1938.**194.

2:2150..*215 2: 2286, 2287 3: 596, 597

FcC12.2H,0 F&l,. 2H,O (Fc, Co) (Fe, Co, Ni)S, FcCr,04 Fe(Fc,Cr),O, (Fc,Md,W2061 (Fc, Mn)Nb,06 (Fc, Mn)

. (Nb, Ta),O, (Fc,Mn),[Si,O,J (Fc,hIn)Ta,O, (Fc, Mn)WO, FC,MO,

Fc,N Fe,N Fe,N (Fc,Ni) Fc,Ni (Fc, Ni, Co),P Fc(Ni,Fc),O, Fc,NiO, (Fc, Ni),S, Fc,O Fc,O,

2: 514

2: l441,1442

2: 2358...236 2: 1428...143 2: l431

2: 1432 2: 1487.*.1491

2: 2041 2: 2042 2: 2043 2: 527..*530

2:1955...195 2: 1491 2: l444... 1460, 146S... 1470

Gast/dcposit

!: ss

!: 1G33...163G, 1670, 7j3..*1755. 192i...

1929 !: 2024, 2025

!: 35. 36 I: 2120

2: 37,.3S

2: 895

2: l7...22, 171...173. 488, 489, 540, 541, 745...761, 942...944, 1056,lO57,lO;G~~~lO7S 1196..,~igS,1270,1271 1471. 15S5, lSS6. 2150.*.2153, 2493, 2524.,.2526 2: 2136 2: 1730, 2135 2: 420...422, 444..*44! 2: 423..,433, 437,.*44: 2: 656, 2263, 2794

2: 1032 2: 1033

2: 2137

2: 3s3 2: 2350 2: 1500

2: 2345 2: 1403

2: 434 2: 409, 2042 2: 408, 2043 2: 406. 407 2: 530 2: s17 2: 527 2: 397 2: 1492 2: 1901. 1953 2: 398...404, l4W 2: 3s4...3ss. 435, 436 9s3...9s5, 1050~~~1055 1304, 1305. 1323, 135 ae.1357, 1400, 1417,

Gebhardt /Neuhaus


Substanz 1 substance

Wirt/ substrate

Gast/deposit Substanz/ substance

Wirt/ substrate

Gastldeposit

Fe20s 1435, 1462, 1468.e. PWMW’J, 2: 2120 (Fortsetzung) 1470, 1472...1475, . AsO,], .6H,O

1487, 1488, 1509,.. Hd% 2: 1845, 1846, 2408, 1512, 1515.+.1520, 2476 1903,2231,2286,2364, (Hg,Cd)Te 2: 2030 2382...2388, 2503..* HgCl, 2: 1847 2506,2710.**2712,2816 Hg,Cl, 2: 1848.*.1851

FedA 2:1471...1484 2: 389...394, 1421, WJ, 2: 1254 2: 255,950,1985,1986, 1425, 1447...1450, 1841...1844, 2404, 1491,1890,1893,1914, 2405,2452, 2453,2475, 2041,2361,2436,2437, 2655 2482, 2507, 2606, H@ 2: 647, 648, 1651, 2714.e.2717 1652, 1660, 1661,1737,

2FeO. AlOOH 2:245g...2461 2: 2334, 2580.**2587 1747, 2028 .4 Al,[O - SiO,] EMS, Se) 2: 2028

FeOOH 2:15og...l520 2: 1513, 1514, 2486, HgTe 2: 2029 2723

FezO, - TiO, 2: 1485, 1486 2: 1453, 1477 In 2: 222...224, 264

Fe,O,WO, 2: 1446 InAs 2: 2132 917, Fe,(PO,),-4H20 2: 2106 1nP 2: 289...291 Fe,(PO,),-8HsO 2: 2106 2: 417, 418 1nSb 2: 2142 2: 1134... 918...922, FeS 2: 528, 529,2154, 2155 1138,1184~~~1189,2142

FeS, 2:1873...1892 2: 649,650,1548,1549, InSb 2 2: 2143

3: 452 1627...1629, 1750, Ir 2: 504 1751, 1788, 1806, 1875 (IrlOs...) 2: 505

. ..1877. 1886...1888, J 2: 377 2: 1836, 1837

1898...1900, 1922, K 2: 591, 771 1924...1926, 1940, K(Al,Cr),[(OH, 2: 2598

Fel-$3 2:18g3...1902 195I,I991~~~1996~2242 F),.AlSi,O,,] 2: 1630, 1752, 1872, 1878,1935.**1937,1941

KW, Mg, Fe),-, 2~2625.e.2772 2: 2394, 2395, 2442, .[(OH,F), 3: 671.**695 2457, 2458, 2619

Fe,(SO,),-9H20 2: 2020 2: 2020 . FeSb,S, 2: 1944, 1945

AISi,O,,] 2:2515...2591 2: 2427...2429

FesSi 2: 2312, 2313 2: 419 KAl,[(OK F),

. FeTiO, 2:1461*..1466 2: 1418...1420, 1431,

AlSi,O,,,] 3: 631.,.662

KAWO,), 2: 2016 2: 2017, 2793 1432, 1451, 1452, 1476, 2351, 2359, 2360,

.12H,O

2365..-2367, 2434, K[AISi,O,] x2397**Q399,

2404.b.2431 2435, 2459, 2713 3: 603...606

FeWO, 2: 1484 KBF, 2: 1987, 2636...2638 GaAs 2:2121...2132 2: 292...294, 354, 368, KBr 2:1068..~1140 2: 551...553, 622, 623,

655, 912...916, 1263 3: 212...231 664, 833, 959, 1059, . ..1265. 1338, 1352, 1141, 1177, 1202, 1227, 1353, 1391, 2129 1235, 1694, 2054..-

Ga(As, P) 2: 295...298, 2130 2056, 2197.,.2199, Ga(As, Sb) 2: 2131 2308, 2409...2412, GadA 2: 1351 2537,2599,2659,2660> GaP 2: 2085 2: 654, 2127 2787

KCN 2:2297...2303 2: 924, 1009, 1190, Ge 2: 280.~~298 2: 262, 263, 575, 602, 1225,1233,1238,1776>

603, 661, 762.s.770, 2304 1079, 1278..-1280, KCaJF- (Si,O,,),] 2: 2501, 2502 1587, 2085.**2089, - SH,O 3: 630 2121, 2’133, 2134, 2813 K,Cd(CN), 2: 2750, 2751

GeTe 2: 896, 1003, 1004, KC1 2: g27*..1011 2: 148~**150, 55E 340, 2741, 2742 3: 151...201 . ..560. 630, 631, 670,

W 2: 377, 1243..*1247, 855, 1017, 1065, 1099. 1252...1257, 1494, 1147,1157,1183,17~7. 1537~..1539, 1550, 2071...2073, 2219-a. 2230, 2477, 2707..* 2221,2297,2305, 2709 2418...2421, 2545,

Gebhardt INeuhaus

170 7.1 Formclvcrzciclmis

Substam/ \Yirt/ substance substrate

XI (Forts&g X1.hIgC12-GH~( X10,

x10,

i&rO,

i,CraO; <F

CFSO, i(Fc,hIg.hIn),

* WI-% - AISi,O,,-1 I<, H,O)Alz[(OI H,O),-AlSi,O,

IKH,PO, I<,Hg(CK),

KJ

I<JO, KLi,AlI(F, OH)

-Si,O,,l :iLi,Al[(OH. F) - Si,O,,l

~<LiFc:\l[(F, OH), . AlSi,O,,

I<hIg,[F, -AISi,O,,]

li(hIg. Fc, hln), . [(OH, F)? . AISi,O,,]

Ii(hIg. Fr),[(OH F), . AlSi,O,,j

IihIg,F(OH, F)a - A&O,,]

IihInO,

K2hhIn,0,, mo,

IiKa,~AlSiO,], (K,Ka)[AISi,O, (Ii,P\‘&(Fc,hlr

. (Ti, Zr),[Si,(C

-OH),,1 KPF, j (IiPbCI,)H20

:10$0~~-1055

:1523...1535

: 354

I: 2s12

I: 591, 592

!: 27%

!:2512

!:2090

~:1191...122~ 3: 23G...25t

2:2513,2514

!:2592

!: 2792 5: lxx !: 2493

2:2599.,.260 3: fiili...624

2:2498...250' 3: 625...628 2:2S16...2Sl

2:2os1,2os:

2: 2100...240 2:2jS2...239

GM/deposit

!: 1962, 1963 <,so,

!: 1982, 19s3, 19SS.., 1990, 2G10...2Gl3, !694..*2697

1:1534. 1535. 1964. 1972,1977,l9SO,2007 2SOG. 2SlG...2SlS

2: S21,951,1sGs,2200

2640

2: 1997

2: 2752, 2753 2: 12% 554..*556, 624 625,665.66G,S34,9GC 1013,10~0,1l00,114~ 117s. i22S,lG95,200! 2057...2060, 2201..- 2205,2298,2309,253$ 2600. 2GGr.2662,266!

27SS 2: 2Sl4,2815

2: l392,1393,209l, 2337,233&2426,2435

2440, 2776...2778 2: 2620

2: 1524...1532, 19% 2000, 2621...2624, 2iG9.*.2772. 2SO2,

2803. 2s12

2: 9S6, 9s7 2: 2162, 2163, 2243..

2250, 2743-a*2i45 2: 2374, 2445 2: 1395,2403 2: 27SG

2:2539 2: 961, 962

Substam/ \\‘irt/ substance substrate

i,PlCl,

C,S,OB i,uo, K,Zn(CN),

::1962...196$

‘: 453*..455 I: 2022

LiBr

iiCl

LiF !: 534...574 I: 30...43

Li(Fc,Mn)[PO,l LiJ LiNO,

Li,UO,

Ma?

hlg,[A1,Si,O1,,] hfg:W, Fe),

.AlSi,018J (hIg, Al, Fc), . [(OH),. (Si.Al] .0,,].3h~g(OH,

MgAl,O, bIg,Al,[O,. SiO,] (hfg, Au) WCO, (hrg, Ca, Fc),

. (Al, Fc),. [SiO,: (hlg, Ca, Fc, Mn),

. (Al,Fe,Cr), - WV3

Q[Cl- B&l Wg~%W-Ih

- 6, A1),0,,,1 hIgF, (hlg, Fc, Al),

-Mg,W%~ Fi A%%,1

(h% F&Al, * ww, .Al,Si,O,,J

(hfg, Fc, Al), .[(OH),. (Si,

AW,,l hhsJ% .w% I

*ww*~4,*, ~%,,&1~4%

hlgFc,O, ~%Fc,WW,o

.CO,].4FI,O

2: 187.~*189 3: 19

2: 2457,245s

2:2GoG...262

2:134%.*135:

3: 545

2:2354..*235

2:2793

2: 593...596

3: 667.,*670

2:2791

2:1521,152:

Gast/dcposit

!:2j40,2$41, 2GG3, 2GG4 2: 1523, 197s,2003, 2022,2OSi, 2OS2,2799

2~592

2: 1010.1019. 1139,

2754,2755 2: 612, S36,963,1699. IS70, 2061

2: 557# 5iS, 613. 83i. 1203...1205. lS71, 2062...2064 2: 129. 3SO. 579,614... 621, 667, 66s. S3S.e 840, 964...966, IlOl..~ 1103,1206~~~120S,1285

1592..*1594, 1700... 1702.1 S53.2065.2206. 2G66 2: 2092

2:S4l, 967,1104,170: 2:2251,2285,22S7,

2563 2: 56% 569

2: 502

2: 1394, 2759

2: 1325, 1479, 236s

2:2433 2:sr5

2: 2573...2577

2:2781

2:629 2:1432

2: 2157, 2155, 27jS

2: l295...1297 2: 1521

Gebhardt /Neuhaus


Substanzl substance

Wirt/ substrate

Substanzl Wirt/ Gast/deposit substance substrate Gastldeposit

--

O%, Fe, Al), 2: 2790 MoS, 2:1829...1867 . [(OH). (Al, Si), 3: 429***451 . %%21 NH,AlW,h 2: 2017

PC% Fe)7W% 2: 2773, 2774, 2780 .12H,O .Si,O,,] NH,Br 2:1148~~~1157 2: 144, 844...847, 970

Wg, WOW% 2.~2487.-2489 2: 2784, 2785 3: 234 1020,1035,1107,1214 %%I 1231, i707,1708, 2674

(Iv%, W,i?W 2~2362.v.2376 2: 258, 259, 2352, 4: 1 2489, 2496, 2497 NH&l 2: 10~2-1036 2: 145, 848, 849,

(Mg,Fe),[SizO,] 2: 2349..* 2: 2350, 2358, 2378, 3: 202~~~208 976...978, 1021, 1112 2353, 2377, 2441, 2474, 2779 1156, 1215, 1709, 1710 2378 2514, 2544, 2675, 267(

WO 2: 1266...1302 2: 188, 593...596> 1493 4: 2 WOW, 2: 1493, 1494 2: 189, l?iOO, 1522, NH&lo, 2: 2614...2617, 2700..

3: 352, 353 2463, 2608, 2609 2703 . W&OH, Fh 2: 2499, 2500 (NH,)H,POd 2: 2090

- W04M N&J 2:1235...1239 2:850,971, llOS,ll45 W,WKFh 2: 2494 2: 2495 3: 252...257 1180, 1372, 1711,2301 . (SiO,M 2306, 2417,2472,2498

MgoWL FL 2~2495.s.2497 2: 2373, 2494 2512,2513,2592,2594 . W%hl 2598,2677,2678,2791

M&W% 2:2472...2474 2: 2318 2792 . %%I 3: 608.*.615 ~fVW’0,) 4: 23...32, 39, 40

WdWh 2:2463...2471 2: 2160, 2161, 2266a.s .6H,O . %Plol 2272, 2349, 2353, W%)Mn% 2: 2001

2369...2371,2438,2473 NH,NO, 2: 2564..*2569 M@b 2: 187 NH,PF, 2: 2542 MgSO, - 7 H,O _ 2: 2725...2731 W%MO, 2:1978...1981 2: 1965, 1974, 2005, Mg,Si 2: 22s 2801, 2807 Mll 3: 27 (Na, &WOO 2: 2083

680, 2:

MnCO, 2: 2285 Na,AIFB 2: 681

835, 1595***1601, - 3: 595 1696, 1852 MnCl, . H,O 2: id34 Na[AlSi,O,] 2: 2380 2: 2423, 2397, 2398.

(Mn, F&H, 2: 92, 203, 242, 243, 2424

. [PO,], a4 H,O 413, 522 (NaAlSiO ) 2:2503...2509 2: 2401, 2402

(Mn, Fe)&+, 2:1438...1440 2: 2456 CaCO,.42&,0 . (Mn, Fe),O, 2: 395, 1440 N4AWsOlo) 2:2491,2492 2:2511 (Mn,Mg)O. (Fe, 2: 1467 .2H,O MW% (NaAlSiO& - 2: 2509

MnO 2:1435, 1436 2: 1298 (Na,SO, MnO, 2: 1437 2: 1506,.-l SOS NaBe[(OH) +

2: 2462 2: 2462 Mn200 2: 1505 S&O,] Mnd’, 2: 1294, 1299, 1306, NaBr 2:1056.*.1067 2: 626... 135...137,

1467 628,669,842,968,1014, Mn(OH), 2: 1504 1105,1143,~155,1~79,

3 Mn,O,. MnSiO, 2: 1437, 1438 1209,1229,1286,1704,

MnOOH 2:1505~~~1508 1705,2066,2207,22OS,

Mn,(O,OH), 2: 1504 2413...2416,2670,2671 MnS 2:1868~~~1872 NaBrO, 2: 1537...1539 2: 2240, 2698, 2699 MnSO, - 7 H,O 2: 2735 NaCN 2: 925, 1011, 1775 Mn,ZnO, 2: 1443 NaCa,[Al,(Al, . Si) 2: 2492

W&&6W MO

MoC MO& MoN

Mo,N MOO,

Mo,O

2: 348..*357 2: 772.e.777, 1262, NaCa[AlF,] 2:682, 683 2: 682, 683 1281,1319,1320,1349, . H,O 1838 Nao,~-o,&ao,5-o,7 2: 2446 2: 355 * WWI,,

2: 356, 357 %,5-2,s~%l 2: 353 Nao,7-o,5Cao,s~o,5 2: 2432, 2433 2: 352 - [4,0-I,, 2: 250, 251, 1859... %,7-2,5* %I 1867 %&ao,dAl~,~ 2: 2447 2: 1396, 2579 2: 350 . %,,O,l

Gebhardt /Neuhaus

152 7.1 Formclverzeichnis

Substans/ Wirt/ substance substrate

Sa,Ca,[Al,Si, .O,,I,.SH,O

[N-n, Ca) [Al,-, Sk-so,], .h’a, (Cl,. so, . CO,)

(Na, Ca)JFc, big. Al),WI-LF), - (Si, A1)&1

(Na,Ca)[(Si, Al), * w

h’aC1

h’a&l, . (AlSiO,l,l

NaClO, NaF

h’aFe[Si,O,l h’a,Fc,,Ti,[O,

- WPJ,l h’a]

KaIi,C1(S,06) NaIi,C1,(S,O,), (Ka, I<)i\‘O, Na,(hIg, Ca) (PC,

Al),,W04 - W,O,),l

Ka(Mg,I.i,Fc), .-41J(OV~+s . (B0,~,~Si60,,1

h’aX0,

h’a?;bO, h’a,O. 1; AlaO, Ka,SO, h-a,SO, (Ka,Sr,Ti,l -WKFaO), .Si,O,]s

Kar(Ti,Zr),[O, .Si,O,l

Xa,Zr(Si,O,) .2H,O

:2511 :2491

:2449

1: 2347,234s

8: 2448 2: 2430, 2431

I: GS4.a*92G 1: 50.,.150

2: 44, 45, 138**+143, 179. ISO, 333. 33% 541 ,.-Z&J, 577, 609, 663 355...958, 1012, 1041 105s, logs, 1151*~~ 1l54,l17G,12Ol.l2S4 1303,1404,1405,1G93 1SG9, 2048...2053, 2194**.219G, 2299. 2307, 2406, 2407, 2656..-2658 4: 44, 49

!:23Sl

!: 575...590

!:234G !:2347,2348

!:ll76..-1l9C i:235

2:2241,2699 2:5G3,GlO,Gil,G71~~ 673, SGo.*.SG3, 1210.. 1212,1287.1603.1603 1715,1719.2074.2222 2223 2:2339,2508

2:843.969,1015,1061 1106,1144,1213,123C l23G,l706,20G7,20G~ 2209.2210,2300,267~ 2673 2:2023

2: 2023 2:2083 2: 27S3

2:2593 2: l397,2320.2335. 239G, 2760...2768

2:2044..*208~ 3: 507...542

2: 9OS...911, 1132, 1133,201$, 215G. 2252.s.2254, 2275. 2276. 2746...2ilS 2: 570

2:1354 2: 2739 2:GSO. GSI 2:2597

2:2339 2: 2346

2: 2479 2:2340

Gast/deposit Substam/ ?Virt/ substance substrate

Yb SbC Sb,C NbN Nb,N NbO Nb,O Nb,O Nb-GoTi- Zr

Ni

h’iAs KiAsS NiAs,-s tii,As, NiBr, N&C NiCl,. 2H,O NiF, N&Fe Ni,Fc Ni(Fe, Cr),O, N&N N&N NiO

Ni,Pb,Ss NiS Ni,Ss Ni[SO,] * 7 HsO NiSbS NiTe, (Ni, Ti) Ni,Ti

Yb PbAs,S, Pb,As,S, Pb,As,S,, Pb,As,& Pb,(As, Sb),S, PbBi,S, PbRr,

PbCO,

PbCl,

Pb,[CI,. CO,] 5 PbCI,. 4 cu

. (OH),. A&l

.1,5HaO 5PbC1,.5Cu

.(OII),. 0,5H,c 5 PbCI,. 4 Cu

.(OH),.2,5H,( Pb,[Cl. (IQ,),1 PbCl(OH)

!: 311.*.323

!: 524.a.526

1: 45S...4S2

2: 2139

2: 2137,213s

2:1492

2: 19G0 2: 1952 2: 1953,1954

2: 1961

2: 531

2: 299...305 2:l792,l793 2: 17s9

2: l790,1791 2: 1819. 1s2a 2: lS2G

2:229G 2:1045*.*104~

2: 1049

2:2100~~~210:

Gast/deposit

!: l272...1274 !: 321 !: 322, 323 !: 315. 316. 319, 320 !: 317, 318 !: 314 !: 313 !:311, 312

!: 23.e.25, 101, 102, 174..-176, 254, 490, iO3, 77S**.7Sfs 945, 1080, 1199, 1275.. 1277,lSSS, 1839.2527 a.2530 !: 177o.v.1773 I: lSS2,2138

2: 2139 I: 1171 !:4S2 I: 1036 1: 465,466 2: SIS, 819 2: SIG 2: 39G 2: 4Sl 2: 47S...4SO 2: 181, 467...471, 1324..*1327 2: 1954 2: 1947, l94S 2:477 2: 2;36..*2738

2: 1557,l9l1

2: 531, 532

2: 2G...2S, 103, 104 2: 493

2: l79O,l792

2: ll09,2211,2G79. 26S0 2: 2170. 22G0, 2261, 2296 2: lGS5...1G91, 2642.. 2644 2: 1774

2: 1045~~*1047, 1049

2: 104s

2: 1697. lG9S

Gebhardt lNeuhaus


Substam/ Wirt/ Gast/deposit Sub&am/ Wirt/ substance substrate substance Gast/deposit substrate

-

PbCuSbS, 2: 1815, 1816 2: 1615, 1733, 1734 Rb,CrO, 2:2804...2808 2: 1966, 1971, 1975, 3: 428

(Pb, Eu)Te 2798, 2810

2: 897 RbF 2: 853, 974, 1714 PbJ, 2:1255...1257 2: 1854, 1855 RbJ 2:1227..*1234 2: 854,g75,1064,1111, PbMoO, 2: 2814, 2815 1146, 1218,2069,2070, WNO,), 3: 544 2: 2016 2216...2218, 2303,

4: 48 PbNa,[OH. Cl

2311,2685,2686 2: 1762.,.1767 RbMnO, 2: 1533

*so,1 RbPF, 2: 2543 PbO 2: 1404,1405 2: 2gg...301 Rb,SO, 2:196g...lg72 2: 1967, 1976, 2006, PbO, 2: 68, 69, 303.e.305 Pb,O

2797, 2805, 2809 2: 302, 1724 Sb

PbPd, 2: 333...336 2: 606, 788, 789, 948,

2: 491 Pb,Pd,

3: 25 2: 492

1082, 1677, 2145, 2534 Sb,O,

PbS 2:1671...1776 2: 272, 283, 284, 584, 2: 867, 86S, g88...ggl,

3: 3g1...403 585, 641, 871...877, 1607, 1608, 1725... 172% 1797,1798,1823,

993, 994, 1125. 1126, 1824, 1858, 2234... 1223,1224,1301,1564, 1565, 1570, 1622..-

2239, 2332, 2333, 2720...2722

1624, 1804, 1805, 1815, S$S, 2:1794...1799 2: 335, 1944, 1945 1816, 18lg,l820,1826, 3: 406...427 1883...1885, 1896, Sb,Te, 2: sgg...go1 1897,1919,1920,1938, 1939,1946,1952, 1961, se 2: 607, 662, 790. 1083,

2100~~~2102 1084

gPbS.2As,S, 2: 1739 Si 2: [email protected] 2: 265, 282, 791***793,

PbSO, 2: 1756...1761, 1999 1310~*~1318 ,1348,

Pb,Sb,S, 2: 1946 2: 1817 136g...1371

Pbs%% 2: 1817, 1818 2: 1796, 1818 (Si, As) 2: 266

PbSe 2: 884, 1302 W, B) 2: 267, 268

Pb(Se, Te) 2: 885 Sic 2: 2146, 2147 2: 257, 275...279,

(Pb, Sn)S 2: 996 1339...1347 3

(Pb, Sn)Se 2: 886, 998 SiO, 2:1355...1399 2: 634...639, 1358.a.

(Pb, Sn)Te 2: 898, 1005 3: 261...351 1361,1387, 1398,1399,

PbTe 2: 890, 1000, 1768, 1401, 1402, 1444, 1454

2036 ee.1457, 2232, 2233,

4: 45 2362,2363,2389,2390, PbTIAs,S, 2: 1791, 1793, 2399, 2555...2558

Pd 2: 483.e.496 2: 29, 105, 463, 542, (si Sb) Pi, P) 2: 269, 270

605, 782...784, 946, ’ 2: 271

1081, 1200, 1368, Sn 2: 106,225, 1589,1590, 2182...2185,2633,2634 1678**.1682

Pd,AI, 2: 493 SnJ, 2: 979, 980, 1715, PdO 2: 494...496 1716, 1856

PO . 2: 337 SnO,‘ 2:1400~*~1403 2: 1460, 2795

Pt 2: 497**.510 2: 177, 361, 604, 785, SnSe SnS 2: 870, 995, 1124

786, 947, 1840, 2531..* 2: 2027 2: 887, 888, 999, 1128

2533 4: 47

PtAs, 2: 510 SnSe, 2: 2027

(Pt, Pd, Ni) S 2: 508 SnTe 2: 902, 1006, 1131

Pts 2: 509 SrMoO, 2: 2813

Rb 2: 787 SrS04 2:1g82...1g84 2: 1998, 2014

RbBr 2:1141~~~1147 2: 146, 147, 851, 972, 3: 482...485

3: 232, 233 1016,1062,1110,1181, ;:g$ 2: 572

1216,1232, 1237,1712, 3 2: 573 2212, 2213, 2681, 2682 Ta 2: 324.a.331

RbCN, 2: 794, 1282, 1283

2:2304...2311 2:926,1008,1018,1140, TaC 2: 329 1226, 1234, 1239,2302 Ta,C 2: 330, 331 2: 339, 852, 973, 1063, ‘l&N

RbCl 2: 328

2:1012~~~1019 1182, 1217, 1713,2214, Ta,O 2: 324...326 2215, 2310, 2683, 2684 Ta,O 2: 327

Gebhardt /Neuhaus Land&-Bihstein, New Serie III/8 13

174 7.2 Namcnsverzeichnis der organischcn Verbindungen

Substnnz/ substance

Wirt/ substrate Gast/dcposit Substanzl

substance Wirt/

substrate Gast/dcposit

re 2: 30 y rpo47 2: 2093. 2342 Th 2: 107 (Y, u, Cal Pb, 2: 1500~~.1502 2: 1428

Ti 2: 306~**310 2: 362, 363, 524..*526, ~W,P~W,l 57G, 608, 795.e.S03, Zn 2: 192...206 2: 31, 32, 506 949, 2146, 2635 3: 20

TiAl(NCr), 2: 532 (Zn, Bi)Tc 2: 2031 t-iC 2: 2148, 2149 2: 310 ZnCO, 2: 2280..*2283 IX 2: 309 3: 594 TiO 2: 1422..*1424 2: 3OS, 2147 Zn2C4P0412 2: 93, 94, 206, 244, TiO, 2:1406...1421 2: 306,307,1329,1330, .2H,O 245, 416, 523

1373.**1386. 1406.. (Zn. W, W-9, 2: 2164 1412, 1422...1424, -co212 1441,1442, 145S, 1459, Znz(Fc,Mn) 2: 2107, 2108 2: 204, 205, 414, 41 j 1464...1466, 147s. .[PO,],.4H,O 1485, 14SG,2148,2149, ZnFc204 2: 1612, 1613 2354,2432,2448,2552, Fn,“dz;)T” 2: 2032 2607, 27lS, 2719 - 2 2: 2088, 2089

IlBiSc, 2: ss9 (Zn, 1n)Te 2: 2033 rlBr 2:1172...1175 2: 561, 856. 1043, (Zn, Mn)Fe,O, 2: 1443

1113, 1114 ZnO 2:1303..*1307 2: 192..*198, 518, 519, IX1 2:1042...1044 2: 857, 85S, 1115... 1331, 13SS. 1436, 160:

1 II 7, 2546.*,2551 . ..1611. 1640, 2280... r]J 2: 562, 859, 1044, 2282

111s. 1175 Zn(W, 2: 199. 1307 Tl,SO, 2:2003...2007 2: 1968, 1979 Zn,[POJ,. 2H,O 2: 2104, 2105 u 2: 373...376 Zn,[PO,],.4H,O 89...91, 201, 2: 2104, 2105 2: 202, CC 2: 376 238...241, 411. 412,- CC 210s I2

2: 375 520, 521, 2107, 2: (Zn, Pb)Te 2: 2034

374 ZnS Lx, 2: 373 351,365,1389,1390 2:1570.**1639 2: SJ2. (K,Na), 2: 2: 252, 5S9. 1430 590 3:355***390 1574***157S, 163S, 1662...1667, 1637,

.0.3H,O 17S6,17S7. fSO7. IS79

U02(OH)2 2: 1503 2: 5so...5s3 1S91,1931~~~1934.196( L‘O,(OH),.H,O 2: 2: 1503 ZnSO, 1639

ZnSO,. 7H,O 2: 2732, 2733, 2734 W 2: 358.*.372 2: 1321 ZnSc 2: 2ss \Y,C 2: 369..*372 2: 2133, 2134 ZnSiAs, n-K 2: 366 ZnSiP, 2: 2OS6, 2OS7 n-,x 2: 367 (Zn,Sn)Te 2: 2035 R-0, 2: 364 ZnTe 2:2031...2035 2: 653, 67S, 903...907 KO, 2: 574 ZI 2: SO4...809 (Y, Ce, u, Pb, Ca) 2: 1426, 1427, 1429 ZrSiO, 2:2340..*2342 2: 2479, 25%+.*2591 . (h’b, Ta, Ti), .Yk (OH),1

7.2 Namensverzeichnis der organischen Verbindungen - Index of names of organic compounds

Substanz/ substance

Wirt/ substrate Gast/dcposit Substanz /

substance Wirt/

substrate Gast/dcposit

Accnaphthen A&amid Acctanilid 9-.4cetotoluidin P-.r\cctotoluidin Acridin

Adipinsiurc

Adrenalin

5: 26s 5: 82, 92, 181 4-Athosy-acctanilid 5: 257 5: 19...22 p-.iithoxyphcnyl- 5: 244 5: 22s harnstoff 5: 235*..23S 5: 239...243 5: 136. 338 Athyl-phcnyl- 5: 270 5: 314, 315 5: 118, 253, 255 barbiturs%urc

5: 157 Alanin 3: 287, 640

3: 314 DL-Alanin 3: 4%

Gebhardt INeuhaus

7.2 -Index of names of organic compounds 175

Substanzl Wirt/ substance substrate G&/deposit Substanz/

substance Wirt/

substrate Gast/deposit

Alizarin 5: 319 3: 3.s.5, 14, 15, 38, Benzamid Re- + 5: 200 39, 48, 130, 131, 190, sorcin 191, 206, 207, 229, Benzanilid 5: 316

230, 249, 250, 387.. . 2,3-Benzanthracen 5:370

389, 402, 403, 426, Benzanthron 5:363 5:145,345

427, 535, 536, 590, Benzen 3: 73, 74 670, 684.e.688 Benzidin 3:425

5: 167, 168, 301,302 5:353 p-Aminoazobenzol 5:26g Benzidin + Hexa- 5:251

o-Aminobenzoesaure 5 : 201 3:442 chlornaphthochinon 5: 131, 333 Benzil 3: 140,141,623,624,

p-Aminobenzoe- 5:202 3: 105, 176, 309,417, 661, 662

saure 470 Benzochinon 3: 432,462,463,490,

5:2go 491 Aminobenzol 5: 150 5: 64, 163, 215 P-Benzochinon 3: 370, 371

Aminoessigsaure 3: 273...282, 608, 5:286

618, 619, 625, 626, Benzoeslure 5: 183.*+188 3: 103, 438, 439 636, 637, 663, 664, Benzoesaure-anilid 5:316

667, 668 Benzoesaure + Phe- 5:155 4’-Amino-3,2’-Me- 5:172 nylendiamin

thylazobenzol 2,3-Benzofluoren 5: 364...368

o-Aminophenol 5:151 3: 86..+1, 163...168, Benz01 5:109, 110

219.. .224, 239.. .244, Benzol f Tri- 5:378 252...257, 372, 373, phenylmethan 434, 435, 483, 493, l,P-Benzophen- 5:370 494, 516*.*518, 550, anthren 551, 568, 569, 651 a-Bernsteinsaure 3: 61

p-Aminophenol 5:152 3: 92...95, 169, 170, /3-Bernsteinsaure ,5: 42 3:62, 609

374...379, 413, 484, 5: 276,277

485, 495...497, 519... Bernsteinskre- 3: 6, 60, 157, 362,

521, 570, 571, 599, anhydrid 408, 507, 555 600, 648...650 2,2-Bis(athylsulfon)- 5: 213 5: 330 propan

Amino-propionsaure 3:287,486, 640 Borneocampher 5: 17, 21, 28, 32, 39,

3-Aminopyren 3: 593 46, 90, 100, 103, 107,

P-Aminosalicylsaure 3:106, 310, 311,418 115, 120, 139, 148, Anilin 5:150 5:64,163, 215 180, 187, 193, 198, Anilin + Triphenyl- 5:379 205,210,237,242,261

methan D-Borneo1 5: 17, 21, 28, 32, 39,

Anissaure 5:227 5: 133, 335

46, 90, 100, 103, 107,

Anthracen 5: 322...351 3: 192, 193 115, 120, 139, 148,

5: 66, 67, 84, 152, 180, 187, 193, 198, 248, 362 205,210,237,242,261

Anthrachinon 5:318 3: 25, 26, 36, 37,47.

Bornylchlorid 5: 16, 20, 27, 31, 38,

125, 126, 188, 189, 45, 89, 99, 106, 114,

205, 227, 228, 247, 119, 138, 147, 179,

248, 259, 260, 325, 186, 192, 197, 209,

352, 353, 386, 445, 236, 241

Brenzcatechin 5: 446, 452, 479.*+481, 119...122 3: 305, 306

505, 506, 534, 552, 5:85

Brenzcatechin 5:122 588, 589, 605, 606,

~~~“‘~61~~ . . . 629j 630, + Chinon

@-Bromacetanilid 5:226 5:132, 334 Bromanil 5:274,297, 298 3: 7, 8, 6% 70

Anthranol m-Brombenzoeslure 5 : I 3:138, 139, 540

75 nL-Brombernstein- 5: 310, 311 5:35 5:124, 323

Anthrarobin saure

Azoxyanisol i’ ‘@$ ‘g4, 231, 251 3-Brom-n-campher 5: 259...262 Bromisovalerianyl- 5 : I 58 5: 5, 9...12, 23, 25,

Benzamid 5: 1g5...200 3:441 harnstoff 35, 42, 43, 70, 65, 86, 5:130, 332 g4..+6, 105, 111,

Gebhardt INeuhaus 13”

176 7.2 Namensverzeichnis dcr organischcn Verbindungen

Substanz/ \Virt/ substance substrate

Bromisovalcrinnyl- harnstoff

(Fortsctzung)

*-Bromjodbcnzol p-Rromnitrobcnzol Bromosin

Bromural i: 15s

wl3utyramid

Calcium-osalat- dihydrat

Calcium-osalat- monohydrat

Calcium-tartrat- tctrahydrat

Camphrr D-Camphrr

DL-Camphrr

D-CamphcrsXurc Carbanilid Carbazol Chinhydron $-Chinon Chinon + Drcnz-

catcchin p-Chinondiosim Chitin Chlorarctamid Chlornnil

i-Chlor-g,lO-.4nthra chinon

2-Chlor- i,4-.4nthra- chinon

i: 94 i: 95

i: 44...47

5: 2G4

i: 317

i:267

5: 231 5: 15...1S 5: Gl..4S

-

Gast/dcposit Substanz/ \Virt/ substance substrate

112, 129. 151, 154, 2-Chlor-5-Nitro- 157. 175, 176, IS-l, bcnzocslurc 190, 195, 201, 203, Whlor-3-Nitro- 207. 212...214, 226... bcnzocskrc 230, 232...234, 239, Cholcstcrin 244, 252. 257, 259, Chryscn 263...270, 315...317, Eoffcin-Monohydrat 320. 321, 331, 35y.e. Zoronrn 3G1, 363, 3G7, 369, Eyclonit 373, 375 L-Cystin _

5: 126, 32s

3: 46, $6, log, 17S,

396, 397. 419. 420.

49% 499, 526. 576, GSl 5: 5, 9...12, 23, 25,

35. 42. 43, 65, 70. SG, ~4~~~96,105,111,112, 129. 151, !54. 157, 175. lib. IS% 190, 195, 201. 203. 207, 212..-214. 226...230, 232...234. 239, 2-14,

252, 257, 259, 2G3... 270. 315...317, 320, 321. 331, 359...361, 363.36i,369.373,375

Diacctyldiosim

5,5-Diithylbarbitur sMrc

I, S-Diamino- anthraccn

I, 2-Diamino-anthra chinon

1, +Diamino-anthra chinon

I, S-Diamino-anthra chinon

Diaminodiphcnyl

5: 53. 54

5: 49.,.52, 159...162

Dibcnzopyrazin Dibcnzopyridin Dibcnzopyrrol 5, 7-Dibrom-S-hy- drosychinolin

3: 559

3: 315...319

3: 23, 24. 443, 473.~. 475, 5Si...5S4, 62S,

G55..657, 665, 666 3:47G...4iS.G20...62;

5: 13. 15. 19, 2G, 30, 37. 44. 8% 9% 102, 113, 137. 17s. 185, 191, IyG, 204, 20% 235, 210, 260

2, 5-Dichlorbcnz- hydrosams~urc

Dicyandiamid I, 2-Dihydrosy- anthrachinon

3:444 5:127 5:122

3: 5Gl

I, %Dihydrosy- anthrachinon

I,%Dihydrosy- anthrachinon

I, S-Dihydrosy- 9, IO-anthrachinon

nz-Dihydroxybcnzol o-Dihydrosybcnzol

3: 9. IO, 71, 72

5: 325,3G4, 372 3: 123

P-Dihydrosybcnzol p, p’-Dihydrosy- diphcnyl

I, 4-Dihydrosy- naphthalin

3: 12-l

4: SO...63

5:370 5:229

5:93 5:123,322

4: 37.s.40 5: 159...16:

5: 230

3: i2, 44, 45, 63...65,

158, 363. 364, 431, 4s7. 488. 50s. 509. 55G...55S, 641...643 5: 134, 336

3: 541

5:169

3:133.390 5:309 3: 134,135

3:42j

5: 353 5~265

5: 314, 315 5:267

5: llS,Zj3,255

3:4G. 10s. 109, 178,

396, 397. 419, 420,

49% 499, 526, 576, 6S0, GS1

3: 575

5: 12...14 5:319 3: 3.e.5, 14, 15, 3s.

39,4S, 130, 131. 190, 191, 206, 207, 229, 230, 249, 250, 3S7.a. 3S9, 402, 403, 426,

427, 535, 536. 590, 670, 6S4...6SS 5: 167, 16s. 301, 302 3: 16.17.537 5: 303, 304 3:129, 53s

5: 320 5:141, 340

5: 117,llS 5: 119...12 3: 305. 306

5:s5 3:433

3: 532, 533, 5S7

Gast/dcposit

3: 394, 395, 523

3: 100

3: 117, 11s. ISI-..

lS4. 422, 423, 501.'.

503. 52% 529. 579 5~296

Gebhardt /Neuhaus

7.2 Index of names of organic compounds 177

Sub&arm/ Wirtl Gastldeposit Substanz/ Wirt/ substance substrate substance Gast/deposit substrate

-

1 , 5-Dihydroxy- 3: 119, 185, 400, 401, Helianthin 5: 171 naphthalin 424, 504, 530, 580 Hexaathylbenzol 4: 49 3: 146

2,7-Dihydroxy- 3: 120, 385, 683 5: 371...374 5: 68, 346, 347, 355 naphthalin Hexachlorbenzol 5: 69, 70 3: 73, 74, ‘365, 409,

3,4-Dihydroxy- 3: 313 610, 611 phenylalanin 5: 278, 279, 32k, 365

2( 3,6-Dihydroxy- 3: 450 Hexachlorinden 5: 158 xanthyl)-benzoe- 5: 313 Hexachlor- 5: 245...251 saure naphtochinon

fi-Dijodbenzol 5: 96 Hexachlornaphtho- 5: 251 Dimethoxy-azoxy- 3: 692 chinon + Benzidin

benzol Hexamethylen- 3: 245,246, 380, 381, p-Dimethylamino- 5: 174, 219.-221 tetramin 404, 405, 414, 415, azobenzol-o-carbon- 436, 437, 465...469, saure 573, 601, 602, 652,

Dimethylglyoxim 3: 22, 44, 45, 63...65, 653 158, 363, 364, 431, Hexogen 5: 123, 322 487, 488, 508,‘509, Humboldtin 3: 21, 28, 29 556...558, 641.e.643 Hydrochinon 3: 433

N, N’-Dimethyl- 5: 43 5: 125, 324 a-Hydrochinon 5: 123...145 3: 34, 84, 85, 482, oxyamid 492, 511...514, 545.e.

2,6-Dimethylpyron 5 : 212 549, 562, 563, 594.e. P-Dinitrilbenzol 5: 214 596, 645...647 m-Dinitrobenzol 3: 369, 411 5: 256, 288, 314 P-Dinitrobenzol 5: 97 /J-Hydrochinon 3: 464, 515, 564...566 1 , 5-Dinitro- 3: 35, 110 Hydrochinon 5: 8 naphthalin + Harnstoff

1 , 8-Dinitro- 5: 252 3: 111 1 -Hydroxy- 3: 136 naphthalin anthracen 5: 312

x-Dinitrophenol 5: 98...101 2-Hydroxy- 3: 137, 539 y-Dinitrophenol 5: 102.*.104 anthracen 2,4-Dinitrophenol 5: 105 I-Hydroxy- 3: 127 Dioxypiperazin 5: 41 anthrachinon 5: 299, 300 trans-ol, a’-Diphenyl- 5 : 360 5: 144, 344 2-Hydroxy- 3: 128

Lthylen anthrachinon N, N’-Diphenyl- 5: 317 p-Hydroxybenz- 3: 440

harnstoff aldehyd Durol 5: 258 8-Hydroxychinolin 5 : 233

Eisen(II)-oxalat- 3: 21, 28, 29 p-Hydroxy-diphenyl 3: 531, 585, 586

dihydrat L-Hydroxyprolin 3: 288...297

Fluoren 5: 74, 83, 182, 247 Hydroxy-pyren 5: 7

Fluorescein , 3:450 3-Hydroxy-pyren 3: 542, 591, 592

5: 313 1 -Hydroxy-2,4,6- 3:81,82

Formaldomedon 5: 369 trinitrobenzol

Fumarsaure 3: 430 Indigo 3: 448 Isatin

D-Glucose 3: 574 5: 291

Isoborneol a-Glycin 3: 273.e.282

5: 14, 18, 22, 29, 33,

Glykokoll 3: 273...282, 608, 40, 47, 81, 91, 101,

618, 619, 625, 626, 104, 108, 116, 121,

636, 637, 663, 664, 140, 149, 188, 194,

667, 668 199, 206, 211, 238,

Harnsaure 4: 3...36 243, 262

5: 49.s.60 y-tert.-Isobutyl- 3: 472, 682

Harnsauredihydrat 5: 55...60 .. caprolactam 5: 71, 76

Harnstoff 4: I,2 Istizin

3: 32, 51...53, 151... 5: 320 5: 141, 340

5: 3...8 153, 202, 212..*214, Jodoform 3: 30, 31, 459*..461,

234, 236, 237, 671... 553, 554, 617

673 Kollagen 4: 64.,.68

Harnstoff + Hydro- 5: 8 Korksaure 5: 232 5: 135, 337 chinon Kristall-Ponceau 3: 453...455

Harnstoffoxalat 5: 48 Lactamid 5: 30...33

Gebhardt /Neuhaus

17s 7.2 Namxwcrzcichnis der organischen Verbindungen

Substanzl Wirt/ substance substrate

Lactosc-monohydrat

Luminal 5:2;0

Mngnrsium-Hum- boldtin

nlnsn~sirlm-osnlnt- dihydrat

ManSan-Hum- boldtin

AInngan-nsalat- dihydrat

hIck0nsbrt-- trihydrat

i-Methos)--anthmchinon

4-Mcthoxybcnzoc- slurr

hIcthJ-lamino- anthmchinon

I-~Icth~lamino- anthrachinon

2-Methyl-anthrachinon

o-5Icthylazobcnzol wMcthylazobcnzo1 hIcthylrnblau-

tctrahpdrat hIethylharnstoff 3-JIcthyl-indol bIcthylornngc hIethylrot

5 ‘: 163...17-

j:227

1: 4s

i: 23

h’nphthaccn n’aphthalin

@-Saphthnchinnn

a-Xaphthol fl-Saphthnl

x-Xaphthylamin fl-Saphthylamin Kaphthylamin

+ Trinitrobrnzol I, j-h’aphthylrn- diamin

KikotinsFiurenmid p-Kitroanilin p-Pl;itrobmzoes?iurc m-Xitrobcnzors5urc i-Kitronnphthalin p-Xitrophmnl

i: 2j3

i: 2j4, 2jj

i: 2j6

4-Sitrostilbrn i,2.4-Nitrotoluiclin Kylon 6

i: 111 5: 112.~~11~ i: 176

i: 106...ioE

j:359 i: 2OS..-211

h-ylon 6,6 p-Xylon 6,6 h’ylon 6, IO

i: 271...271

Gast/dcposit

3: 323. 321

3:19

3:39

3:27

3: 27

3: 144

5: 133. 335

5: 173

3:49,145,20s

3:143

5: 165,217 5:166,2tS 3: 543, 544 5: 4s, 222...225

5:292 5:171 5: 174, 219...221

5:370

3:179,1so.471,57; 57s 5: 7s. S7897.177 3: 112...114, 39s,

399,421. 500, 527 5: 293,294

3: 1i5,116 5: 215. 36s

5: 79, 246, 339 5: 77

5:so

5: 12s. 329

3: 3S3. 416, 525.67 3: 101, 102, 524 5:29j 3:412 5:4. 2s7

5:143, 343

3: r73.*.175. 225 5: 2s9 3: 321

3: lS6.22G 3: 196, 32G..-329

Substanz / M’irt/ substance substrate

Nylon 7,~ Nylon S

wOctacosan

n-Octadccan

n-Octncikosan

OsalsBnrc i: 11 woxyphcnazin i:2G6

Lu-PalmitinsLurc Paraffin

Pcntabromphcnol

Pcntachloramino- bcnzol

Pcntachloranilin Pcntachlorbcnzoc-

s8urc Pcntachlormcthyl-

bcnzol Pcntachlorphcnol

a-Pcntachlorphcnol B-Pcntachlorphcnol

Pcntacrythrit

Pcnton Pcrchlorindol Pcrvitin Phcnacctin Phcnnnthrcn Phcnazin Phcnazin-N-osid 9-Phcnylacridin Phcnylalanylglycin-

monohydrat o-Phznylcndiamin fi-Phcnylcndiamin Phcnylcndiamin

+ BcnzocsHurc Phcnylharnstoff Phthalanil Phthalimid Phthalsiurc PhthalsLurc-

anhydrid Pikrinsiurc a-Pikrinslurc

i: 7j, 7G

i: 71...73

i:2G3 i:257 i: 352...3j8 ;:265 ;:26G

i:37j

i: 154, 155

i:207 i: 321

i: 215...225

i: Sj...93

G&/deposit

3: 19j 3: 177,312

3:42,149,199

5:351,3js 3: 40.147,197

5: 34% 349, 356 3:42,149.199

5:351,35s

3: 449

3:43, 150, 200, 201

451 3: II, 75. 7G, 159. 160, 203, 209, 217,

232, 366 5: 61. 271, 280, 281 3:12,13, 367 5:2S4,285 5: 63,272 3: 9s

3:99, 3s2

3: 1.2, 77..+0, iG1. 162, 204, 210, 218, 233, Zjs, 298..-304, 354, 410, 42s. 456,

45% 510, 560, 59% 603, 604, 607. 612. 613, 627, 644, 669 5: 2, 3, 24, 41, 62,

153, 156,231, 273. 327 3: 77. 7s 3: 79, SO, 162, 410 5:2S2,2s3

5: 69, 73, 75. 202,

31% 319 3: 66..*68 5:352

5: 219. 342. 374

3: 320

3: 96, 171, 522, 572 5:1j5

5: 142,341

3: 3s4

3:654

3: Sl,S2

5:366

1

Gebhardt INeuhaus

7.2 Index of names of organic compounds 179

Substanzl Wirt/ Gast/deposit Substanzl Wirt/ substance substrate

Gast/deposit substance substrate

Pikrylchlorid 5: 74 2,3,5,6-Tetrachlor- 5 : 61.e.68 3: 9, IO, 71, 72 o-Pinenhydro- 5: 16, 20, 27, 31, 38, P-Benzochinon 5:325, 364, 372 chlorid 45, 89, 99, 106, 114, 3,5-3’,5’-Tetra- 3: 122

119, 138, 147, 179, chlordiphenochinon 186, 192, 197, 209, Tetrachlorphthal- 5: 254 236, 241 saureanhydrid

Poly-2-acetamido- 5: 231 n-Tetracosan 3: 41, 148, 19s 2-desoxy-D-glucan 5:350, 357

Polyacrylnitril 5: 24 3: 57, 58, 155, 156, vz-Tetraeikosan 3:41,148,198

283 5: 350, 357 Polyathylen 3: 33, 56, 154, 211, 1,2,5,8-Tetrahy- 5: 307, 308

235,238 droxyanthrachinon 5:1 f,2,4,$Tetra- 5:258

Polylthylenoxid 3: 216,635 methylbenzol Polyathylen- 3: 121 Thioharnstoff 5:9 3: 54, 55, 215, 356.~. terephthalat 361, 391, 392, 406,

Poly-L-alanin 3:284.*.286,638,639 407, 674.s.677 Poly-3,3-bis(chlor- 3: 66...68 Thio-Indigo 3:447

methyl)-cyclooxa- Thiophen 5: 34 5:109 butan Thiophen + Tri- 5:376

x-Polyglycin 3: 261...266,631,632 phenylmethan p-Polyglycin 3: 267***272,633,634 I, 2,4-Triamino- 5:170 B-Polyoxymethylen 5 : 1, 2 3: 50 anthrachinon Polypropylen 3: 59 Trichloracetamid 5:10 Polystyrol 3:107 Triglycinsulfat 4: 41...47 Polyurethan 3: 187 3,4,9-Trihydroxy- 3:142, 194, 231, 251 Prontosil rubrum 5: 164,216 anthracen Propionamid 5: 26...29 1,2,4-Trihydroxy- 3: 132, 689**-691 Pseudoisocyanin 3: 693 9, I 0-anthrachinon 5:305, 306 Pseudoisocyanin- 3: 694, 695 1,2,3-Trihydroxy- 5: 146.*.149

chlorid benzol Purpurin 3: 132, 689...691 1,2,4-Trihydroxy- 3: 567

5:305, 306 benzol Pyren 5:361, 362 5:250, 354 ’ Trimethylolathan 5: 72, 183, 189, 371 Pyrogallol 5: 146...149 I, 3, jr-Trimethyl- 5:229 Pyrrol 5: 36 xanthin-mono- Pyrrol + Triphenyl- 5:377 hydrat

methan Trinitrobenzol 3:489

Resorcin 5:117,118 1,3, $Trinitrobenzol 5: 77.a.84 3: 368, 393

Resorcin + Benz- 5:200 Trinitrobenzol 5: 77

amid + Naphthylamin

Rohrzucker 5: 275.a.313 I, 3,5-Trinitrophenol 3:83

Saccharose 5: 275...313 wTrinitrotoluo1 5: 177...182

Salicylamid ’ 5: 203...206 I, 3,5-Trinitrotri- 5:25

Salicylsaure 5: 189...194 3: 104, 308, 597 methylentriamin

5:6 Triphenylmethan 5: 376.e.379 5:34, 36,110, 150

Stearinsaure 3:18 Triphenylmethan 5: 379

Stilben 5:360 , 5:144, 344 + Anilin

Siiccinimid 5: 37...40 Triphenylmethan 5:378

Sulfanilamid 5:156 + Benz01

Triphenylmethan 5:377 /I-Sulfanilamid 3: 172, 307, 678 Sulfanilsaureamid 3:97

+ Pyrrol

Sulfanilsaure-mono- 5 : 153 Triphenylmethan 5:376

hydrat + Thiophen

Sulfonal 5:213 Urotropin 3:245,246, 380, 381,

4-Sulfonamido-2’, 4’- 5:164,216 404, 405, 414, 415,

diaminoazobenzol 436, 437, 465..*469,

Tetrabromchinon 3: 7, 8, 69, 70 573,60l,602,652,653

Tetrabromkohlen- 3:355,429,457 Verona1 5:230 5:134, 336

staff 5: 117, 146, 258, 275 Vitamin Bf 3:322

Gebhardt /Neuhaus

180 7.3 Verzeichnis der Mineralnamen

Substanzl Wirt/ Gastldeposit Substane/ Wirt/ substance substrate substance Gast/deposit substrate

Vitamin B I 2 3: 330..*351 tvans-Zimtslurc 5: 234

Keddclit Zink-Humboldtin

5: 53, 54 3: 20

Shewcllit Zink.osalat-dihydrat 3:20

5:49...52, 159...162

7.3 Verzeichnis der Mineralnamen - Index of mineral names

- Substanz/ \Yirt/ Gast/dcposit Substanz/ Wirt/ substance substrate substance substrate Gast/deposit

-

4cgirin 2: 2346 2:2339,25OS Arfvcdsonit 2: 2347, 2348 4enigmatit 2:2347,234S Argcntit 2:869, 992, Il23.1614, 4ikinit 2: is25 1743,1744 I\kaganeit 2:1509..*1511 Argyrodit 2:1812

4kanthit 2: 1561 2: 155.,.160, 1641, 1642, Arscn 2: 332 2: 538. 600, 707, 70% 932. 1729 3: 24 1069,1193.1673. 2144,

Alabandin 2:1s6s...iS72 2518 Alnrrn 2:2016,2017 2: 2017,2793 Arscnolith 2:248,249,256, 332, 334, Mbit 2:23so 2: 2397, 239% 2423, 341, 632, 864, 865. 981.

2424 982, 1119...1122, 1219...

Allanit 2:24SO,24Sl 2:24s3 1222, 1547, 1605, 1606, Altait 2: 890, 1000, 176% 2036 1720..-1723, 1777. 1794.

4:45 1795,1821, 1822, 1857, Aluminium 2:221...245 2:261, 342...344, 345,349, 2075...2080. 2224...2229,

3:21 497. 49% 535, 536, 599. 2330, 233l. 2454. 2455. 696...700, 930, 931, IOGS, 2704...2706 I 192, I 363, I 364, I 5S0, Arscnopyrit 2: 193S...l943 2: 1730, 2f35 2174, 2175, 2351, 2626, Astrophyllit 2: 27S6 2G27 Augit 2:2434...2445 2: 2321.2372,2392, 2400,

Ammon- 2: 2564,.,2569 2425.2450.2451,2487,

salpcter 2756. 2757, 2775 Ampangabcit 2: 1500, 1501 2: 1428 Aurichalcit 2: 2164 Amphibol 2: 2382, 2: 1483, 2159, 2264, 2377, Auripigmcnt 2: 1777 2: 177s

2773.a.2785 2379, 23S0, 2443, 2444, 3: 404, 405 3: 629 2488 Austcnit 2: 435...449 2: 420...422

Anatas 2:1406~~~1408 2: 306, 1422, 1423, 1485, Autunit 2:2112...2115

14S6 Avcnturin 2: 1355..*1357 Andalusit 2:232j..*232S 2: 2336 Avogadrit 2: 1957, 2636..-2638 Andcsin 2:2432, 2433 Azurit 2: 22ss...2290

Anglcsit 2: 1756.**1761, 1999 Anhydrit 3:456 2: 640, 2009 BIckstrBmit 2: 1504 Anthophyllit 2: 2773, 2774 Barium 2: l90, 191 Antigorit 2: 2369...2371, 243S, 2473 Baryt 2:1985...2002 2: 1761.2274,2279

Antimon 2: 333.v.336 2: 606, 7ss, 739,94S, lOS2. 3: 4SG...506 3: 2j 1677, 2145, 2534 Barytocalcit 2:2274...2278 2: 2002

Antimonit 2:1794...1799 2: 335,1944.1945 Bastit 2: 2349 3: 406...427 BastnLsit 2: 2291 2: 2295

Antimon- 2: 2140 Baumhaucrit 2: 1790, 1792 silbcr Bcrlinit 2: 235...237

Apatit 2:209+..2099 2: 2356, 2391, 2422, 2447, Bcrthicrit 2: 1944,194s 2449, 2490, 2570.**2572 Bcryll 2: 2393 4: 3.e.10, 37, 3S, 62.e.65 Beryllium 2: lS3..*186 2: 709...720, 2631

Apophyllit 2:2501,2502 Bcrzclianit 2: 2024 3: 630 Bctafit 2: 1425

Aragonit 2:2162...2170 2: 2010...2012, 2255.- Biotit 2:2599.**2605 2: 1392,1393,2091,2337,

2259 3: 617...624 2338, 2426, 2439, 2440, 4: so...53 2776...277s

Arcanit 2:1962..~19GS 2: 1523, 1975, 2003, 2022, Bismuth, 3: 453..*455 2OS1, 2OS2, 2799 set Wismut

Gebhardt INeuhaus

7.3 Index of mineral names 181

Substanzl substance

Wirt/ substrate Gast/deposit Substans/

substance Wirt/

substrate Gastldeposit

Bismuthinit 2: 1821...1824 2: 651, 652, 1731, ISOI, Cementit 2:2150...2155 2: 423...433, 437...443 Bityit 2039 2: 2265 Cerargyrit Cerussit 2: 2: 1241, 1242

Bixbyit 2170, 2260, 2261, 229

2: 1438...1440 2: 2456 Chalkolith 2: 2114, 2115 Blei 2: 299...305 2: 26...28, 103, 104 Chalkopyrit 2:1914...1934 2: 645, Bleiglanz

646, 1566, 1567 2:1671...1776 2: 272, 283, 284, 5S4, 585, 3: 391...403

1616~.~16lS, 1668, 1669, 641, S71...877, 993, 994, 1735, 1783, 1802, 1782, 1125, 1126, 1223, 1224, 1803, 1808, 1809, 1889, 1301, 1564, 1565, 1570, 1894, 1895, 1904, 1905, 1622...1624, 1804, 1805, 1949, 1950, 1955. 2446 1815, 1816, 1819, 1820, Chalko- 2: 1956 1826, 1883~~~1885, 1896, pyrrhotin 1897, 1919, 1920, 1938, Chalkosin 2:i540..*1546 2: 81..86, 1554*..1556, 1939, 1946, 1952, 1961, 1649, 1650, 1736, 1906, 2100...2102 l907,19l5

Blomstrandin 2: 1426, 1427 Chalkostibit 2: 1800 Biihmit 2: 233, 1499 Chloanthit Boleit 2: 1045***1048

2: 2138 2137, Chlorargyrit 2:1037...1040

Boracit 2: 40, l17..~121, 822, 823

2: 2793 Bornit 2:1903...1913

953, 1042, 1090..*1094, 2: 1481, 1540, 1541, 1551, 1168, 1684, 2641 1552, 1732 4: 41

Boulangerit 2 : 1817 2: 1796, 1818 Chlorit 2:2606...2624 2: Bournonit 2: 1815, 1816 2: 1615, 1733;1734

1482, 2157, 2158, 2751 3: 667...670

3: 428 Chondrodit Braggit

2: 2499, 2500 2: 508 Chrom 2: 342.a.347

Brass, see 2: 13...16, 734.e.740

Chromit 2: 1441, 1442 Messing Chrysotil 2:2463.**2471

Braunit 2: 2266...2272

2: 1437, 1438 Cinnabarit Bravoit

2: 647, 648, 1651, 1652 2: 2137

Brochantit 1737, 2028

2: 2021 Clarkeit Bromargyrit

2: 589, 590 2:1158~~~1170 2: ll0...116, 820, 952, Clausthalit 2: 884, 1302

1038, lOS5...1089, 1172... Cobaltin 2: 1949...1951 2: 1881 1174, 1683, 2639 Coccinit 2: 1254 2: 255, 950, 1841...1844 4: 43

Bromellit 2:1262...1265 1985, 1986, 2404, 2405,

2: 183...186 Bronzit 2:2349...2353

2452, 2453, 2475, 2655 2: 2358, 2441, 2779 Coelestin 2: 1982...1984 2:

Brookit l998, 2014

2:1409...1412 2: 2552 3: 482...485 Brucit 2: 1493, 1494 2: 189, 1300, 1522, 2463, Cohenit 2:2150...2155 2: 423...433, 437...443

3: 352, 353 2608, 2609 Coloradoit Brushit

2: 2029 2: 2103 2: 200, 410, 2094, 2095 Columbit 2:1428...1430 2: 1500

4: ll...lS, 66 Colusit Bunsenit

2: 1779, 1780 2: 1492 2: 181, 467..*476, 1324.a. Cooperit 2: 509

1327 2: 2020 Bustamit

Coquimbit 2: 2343 Cordierit 2: 2457, 2458 2: 1394, 2759

Cadmium 2: 207...220 2: 9. 221 Cotunnit 2: 1685...1691, 2642... Cadmoselit 2: 586, 642.e.644, 674... 2644

677,880,997,1066, 1127, Covellin 2:1547~~~1550 2: SO, 1260, 1542...1545 2026, 2740 1553. 1619, 1620, 1738,

Caesium 2: 359, 360 1825, 1908, 1916, 1917 Calcit 2:2171...2273 2: 2165...2169,2277,2278, Cristobalit 2:1358.~*1360 2: 1361, 1398, 1399, 1444

3: 553..*593 2355, 2501, 2464..*2471, 2362, 2363 2510, 2602...2604, 2749 Cubanit 2:1935..*1937 2: 162i, 1918, 1957 4: 54.s.57 Cumengeit 2: 1045~~~1047, 1049

Cancrinit 2:2503...2509 2: 2401, 2402 Cumming- 2: 2780 Caracolit 2: 1762...1767 tonit Carnallit 2:1050~**1055 Cuprit 2:1258...1260 2: 49...67, 517, 567, 833 Carobbiit 2: 591, 592 2: 821, 951, 1868, 2200, 866, 2553, 2554

2640 Cyanit 2:2329...2335 2: 2325, 2460, 2461 Zassiterit 2: 1400~~~1403 2: 1460, 2795 3: 598...602

Zelestit, see Daltonid Coelestin

2: 531, 532 Diamant 2: 253...259

Gebhardt /Neuhaus

182 7.3 Verzcichnis der Mineralnamen

?ubstanzl Wirtl substance substrate

Zaspor Iigcnit Xopsid Xsthcn

)jurleit Iolomit

Xlmorticrit I)-skrasit

lis-I

Cisrn

3nargit Xpididymit 3pidot

Cpiianthinit 3psomit Zriochalcit Xskolait 3ttringit Zuklas

Zudidvmit Zuscnit

Falkmanit Feldsppnl

Fcrbcrit Fcrrit Firecla> Fluorit

Fluor- PhloSopit

Franklinit Fuchsit

Galcnit

Galcnobis- muthit

: l496..*149S :1551...1560 :2317..*2320 :2329...2335 : 59S...602

:2156...2161 : 546...552

: 2141

I: 378...449 I~ 2s, 29

!:I ji9...17Sj ‘* 2462 ,. !:2-!S3...24S: I: 6tG

!: 2OlS 2019 !: 2475.2476

!: ISIS !: 23sn. !jS2...2399, !404.*.2433, 1446...2448 I: 603...606

2: 420...434

2: 597..GGO 3: 44...49 2: 2493

2: 1443 2: 2j9S

2:1671.,.177~ 3: 391...403

2: lS2h

Gast/dcposit

!: 231, 1332..*1336, 143’ !: ss !: 234-l !: 2j2j. 2460. 2461

!: 1546, 1655, 16SG !: 2262. 261s

2: 2j9j 2: 164

2: 377, l243.+.12J7, 125 ..1257, 1494,1537.**1535 1550, 2230, 2477, 2iOi.. 2709 1: 17.,.22. 171...173. 4% 1s9, 540, 541, 745..*761 )42~.*944. 1056, 1057. lOiG...lO7S, 1196~~~1198, 1270, 1271, 1471, 158$. 1586, 21 SO***21 53, 2193. 2j24...2526

2: 21SO

2: 1 jO3 2: 272j..*2731 2: s2s...s30, 1031

2: 346, 1433, 1434

2: 21G2 2: 142h. 1427, 1429

2: 139j. 139G, 2397.2395 2403, 2423, 2424, 2430, 2431 , 25i9

2: 14s.l 2: 1270, 2150...2153 2: 247s 2: S31, S32. 1591. 2193

2: lGl2, 1613

2: 272, 2S3, 2S4, 5S4, 5s 641, S71...877. 993. 99 112j, 1126, 1223, 1224, 1301, 1564, 1565. 1570. 1622.v.1624, lS04, 1805, ISIS, IStG, 1S19. 1520, 1526, iSSJ...lSSS, 1896, lS97. 1919. 1920. 193S 19390 1946. 1952. 1961, 2100...2102


;allit Garnet, see Granat scokronit ;erhardtit ;crmanium

;crsdorIfit Zps

Jirwiev*)

>octhit :01Cl

>oslarit sraftonit sranat sraphit

Zratonit Zrccnockit

Groutit Gypsum, see Gips

Gyrolith

Hacmatit

Halit

I: lSl9, lS2C I: 2084 I: 280...298

!:200S...201 1: 457...481 !: 2493, 3498...2500, !512.**2592, !593, 259S**, !605, 2625.~~ !772, 27SG..s !7S9, 2792 I: 6f7...628, i3t . ..666. i71...G95 !:1515...151 !: 165...182

2: 2091, 209: 2:2354...235 2: 246...252 3: 22, 23

2:lG40.*lGG

2: 1505,1501

2: 2510

2:1444,..14t

2: 684.s.926 3: 50...150

Gast/dcposit

‘: 1625, 1626

I: 262, 263, 57 j, 602, 603, 161, 762...770. 1079, 127s .*12SO, 1557, 2OSS.*.lOS9, !121, 2133, 2134, 2513 I: iss2, 213s

I: 1350, 1392, 1393,2091, !265. 2337. 233% 2394, !395. 2426, 2439, 2442, !4j7, 2-I!& 2595. 2596, !619. 2776.-.2778

!: 1 jl3, 1514, 2486. 2723 !: G...S, 96, 97, 246, 247, 145. 379, 460. 464, 484, ISS, 499, 537, 601. 701.., 106, 933...935, 1070... 1072, 1194, 1251, 1268, 130s. 13GS. 1366. ISSf. 1674, lS3O.**lS34, 217G.., 2181, 2G2S, 2629 2: 27.32, 2733, 2734

2: 2j73...2j77 I: 253, 2329, 2632

2: 1739 2: 161, 162. 218...220, 2s: ..2S7. S7S. 1337, 1571..*

1573, 1740, i741, 2122... 2125, 2721

2: 3Si, 435, 9S3...985. 10~0~~~1055, 1304, 1305. 1323, 1354..*1357. 1400. 1417, 1435, 1462, 1468.. 1470, 1472...1474, 1487, 14ss. 1512, 1515~~*1517. 1903, 2231, 22SG, 2364. 23S2...23SS, 2jO3...2506, 2710...2712, 2Sf6 2: 44, 45, 138...143, 176 180, 333, 33% 548~~~55C 577, 609, 663, 955-*958. 1012, 104t. toss. 109% 1151~** 1154, 1176, 1201. 12S4, 1303, 1404. 1405, 1693, 1869. 2045...2053,

l ) Siehe such / set also: hfuskorit, Biotit.

Gebhardt INeuhaus

7.3 Index of mineral names i83

Substanz/ Wirt/ Gast/deposit Substans/ Wirt/ substance substrate substance Gastldeposit substrate

Halit 2194...2196,.2299, 2307. Kalomel 2: 184%**1851 (Fortsetzung) 2406,2407,2656..*2658 Kamazit 2: 527...529 2: 530

4: 44, 49 Kaolinit 2: 247 j, 2478 22: ;;I; Hatchettolith 2: 1501, 1502 Katapleit 2:2479 Hausmannit 2:1306, 1467 Klinoamphi- 2:2790 Hawleyit 2: 217, 879, 1657...1659, bol

1742, 2143 Klinohumit 2:2495...2497 2: 2373,2494

4: 46 Klinopyroxen 2~2378 Heazlewoodit 2: 1953, 1954 2: 477 Klockmannit 2:2024, 2625 Herzenbergit 2: 870. 995, 1124 Kobalt 2: 450...457 2: 10...12, 98, 167, 168, Hetaerolith 2:1443 500, 726...733, 1269 Hilgardit 2:2796 Korund 2:1308...f347 2: 232, 1461, 1496...1498 Hoch-Argen- 2: 1743,1744 3:260

tit Kryolith 2: 680, 68; 2: 835, 1595.*.1601, 1696, Hoch-Cristo- 2:1358...1360 2: 1361 1852

balit Kryptomelan 2: 986, 987 Hoch-Schap- 2: 1827, 1828 2: 1745, 1746 Kupfer 2: I..-95 2: 99, 100, 169, 170, 358,

bachit 3: I...5 462, 486, 487, 501, 515, Hoch-Silber- 2:1564*.*1569 2: 1813 516, 539, 74j.e.744, 941,

glanz 1074, 1075,1195,1309, Hoch-Tridy- 2: 1361 1582...1584, 1676, 1835,

mit 2520...2523 Hopeit 2: 2104, 2105 2: 89...91, 201, 202,238... Kupferkies 2:1914...1934 2: 645, 646, 1566, 1567,

241, 411, 412, 520, 521, 1616...1618, 1668, 1669, 2107,2108 1735,1782,1783,1802,

Hornblende 2: 2482, 2: 1483, 2159, 2264, 2377, 1803, 1808, 1809,1889,

2773...2785 2379, 2380, 2443,2444, 1894,1895, 1904, 1905, 3: 629 2488 1949, 1950,1955,2446

Humboldtin 3: 19...21, 27...29 Labradorit 2: 2446 Humit 2:2494 2:2495 Lampro- 2: 2597 Hureaulith 2: 92, 203, 242, 243, 413, phyllit

522 Laurionit 2: 1697, 1698 Hutchinsonit 2: 1791. 1793 Lepidokrokit 2:1518..+1520 Hydrargillit 2 : 1499 Lepidolith 2: 2513, 2514 Hydro- 2:2512 Lepidomelan 2: 2786

muskovit Linneit 2:1947,1948 2:1921 Hydroxyl- 2:2094...2099 2:2356, 2422 Lithargit 2:1404,1405 2:299

apatit 4: 3.**10, 37, 38 Lollingit 2: 2135 2: 2136 Hypersthen 2:2358...2361 2:2350 Lopezit 2: 2812

Ianthinit 2:1503 2: 580...583 Lorenzenit 2: 2339 2: 2346

Idait 2:1909, 1910 Lueshit 2: 570

Ilmenit 2:1461...1466 2:1418~~.1420,1431,1432, Ludlamit 2:2106

1451, 1452, 1476, 2351, Maghemit 2:1468...1470 2: 388, 436, 1475, 1509...

2359,2360,2365,2366, 1511, 1518...1520

2434, 2435,2459, 2713 Magnesio- 2: 1295..-1297 Ilvait 2:2486 ferrit Indium 2: 222...224, 264 Magnesit 3: 545 Iod, see Jod Magnesium 2: 187...189 2: 502 Iridium 2: 504 3:19,

Iridosmium 2: 505 Magnetit 2:1471...1484 2: 389...394, 1421, 1425,

Jacobsit 2: 1467 1447...1450, 1491, 1890,

Jamesonit 2:1946 2:1817 1893,1914, 2041, 2361,

2: 377 2:1836, 1837 2367,2436.2437,2482,

:Zargyrit 2:1240...1248 2: 126,127,1040,1249, 2507, 2606, 2714...2717

Magnetkies 125092536

2:1893...1902 2:1630,1752,1872,1878,

Johannsenit 2: 2343 1935...1937, 1941 Malachit 2:2288...2290 2:1261

Kammererit 2:2781 Mallardit 2: 2735 Kalisalpeter 2:2081,2082 2: 2162, 2743...2745 Mangan 3:27

(K-Salpeter) Manganit 2: 1507,1508 Kalium 2: 591, 771 Manganosit 2:1435,1436 2:1298

Gebhardt /Neuhaus

181 7.3 Verzeichnis dcr Mineralnamen

Substanzj Wirt/ substance substrate

Margarit hrarkasit

Marshit Martensit Mascagnit

Massicotit Mauchcrit hIdilith Mclonit Mrroscn hlcsolith hIwing Mctaautunit Mctacinna-

barit Mctatobcrnit Mica. set

Glimmrr Micrsit

hlikroklin hIillcrit hloissanit hlolybdin

hIolybcllnit

BIolybdit Monazit Monetit

Monteponit Morcnosit hIosandrit hrossit hIullit hruskovit

Nagyagit Nantokit Natrolith h’atron-

salpcter (Ka Salpctcr)

h’cmaphyllit Ncphclin Kiccolit, see

Nickclin Nickel

h’ickclin h’iob h’itrammit I Nitrammit 11 Xtram-

mit I\-

3: 663..-665 2:1s73...1s79

2: 2450,2451

2:2787...2789 2:2511 2: 515-s-523

2:2116.2117

2: 2111

2: 1249.1250

2:2397...2399 2: 1952 2:2146,2147 2: 348...357

2:ls29.~.ls67 3: 429.,.451

2: 2093

2: 2597 2: 1431

2:2j15...259! 3: 631..,662

2:2036...2038

2: 2491,2492 2:2044...2080 3: 507...542

2:2400...2403

2: 45&..4s2

2:2t39 2: 3il.e.323

Gast/cleposit

2: 649, 154% 1627, 17SS iSS6~..1SSS,lS9S~~~l900,

1922,1991,f992 2: 46.~~45, 125s 2: 444...449 2:1965, 1974, 2005, 2sO1 2sO7 2: 300. 301 2:2139 2:2605 2: 1557,1911

2:2491

2: 1660, 166f, 1747

2: 130.-134.2667..*2669 4: 42

2:1947, 194s

2: 772...777, 1262, 1251

1319, 1320, 1349, ls3s

2:250, 25t, is59.**1s67

2:2096,2097 4: 67 2: 207.**212

2: 2736..*2738

2: 1350, 2595, 2596 2: 2427...2429

2: ls92, 1912 2:1602 2:2511 2: 9Os...911, 1132, 1133 2015, 21.56, 2252..*2254, 2275, 2276, 2746.~.2748 2:2lGO,2161 2: 2374,2445

2: 23...25, 101, 102, 174.. 176, 254, 490, 503, 77s.. 7s1,945, lOSO, 1199, 127 *..1277, 15ss, 1839, 252 .*.2530 2: 1770..,1773 2: 1272...1274

2: 2564, 2565 2:2566, 2567 2: 256S, 2569

Substanzj Wirtj substance substrate

Nitrobaryt Nitrokalit Nitronatrit

n’itroplumbit

Nordcnski- Bldin

Noscan

3: 543 2:2os1,2052 2:2044...208( 3: 507...542

3: 544

2: 279482795

Octacalcium- phosphnt

Oligoklas Olivin

Onofrit Ornithit Orpimcnt,

see Auri- pigment

Ortho- amphibol

Orthoklas

2:2447 2:2362...237(

2: 202s

Orthopyroscl Osbornit Otavit

2:2790

2:2404...243; 3: 603...606

2:2377,237s

Pachnolith 2: 652, 683 Palladium 2: 483...496

Para- coquimbit

Para- hilgarclit

Parisit Pektolith Pcntlandit Pcriklas Pcrmalloy Pcrowskit Pctzit Phlogopit

2:2292

2:1955...1955 2:r266...130:

Phlogopit (Fluor-)

Phosgcnit Phospho-

phyllit Plagioklas Platin

2:2498...250( 3: 625.~~62s

2:2493

2: 2296 2:2107-.210:

2:2448 2: 497..*510

Plattncrit Plumbocalcit Polonium Polybasit 2: 1sos~.~1sl1

Polylithionit 2:2592 Portlanclit 2:1495

Gast/dcposit

2: 2162, 2743...2745

2: 9Os...911, 1132, 1133, 2015, 215G,e2252...22j4, 2275,2276,2746...274s 2:2016 4:48 2:2273

2: 2509

2:209S, 2099 4: 19...22, 6s

2: 1396,2379 2: 25s. 259, 2352. 2459. 2496, 2497

2: 2103

2:309 2: 2283

2: 29, 105. 463, 542, GOj. 7s2...7s4.946, 10s1.1209, 136s, 21sz...zrs5, 2633,

2634 2: 2020

2: 2796

2:2293 2: 2322..*2321

2:1901,1953 2: 188, 593..*596, 149; 2: 81% 819 2: 571.1463 2:2037 2:2620

2: 1774 2: 204, 205, 414. 415

2:2430, 243i

2: 177, 361. 604. 785. 7s6, 947, 1840, 2531...

2533 2: 6S, 69, 304, 305 2: 22S4

2: 337 2: t562,156S,1569* 174s.

1923

Gebhardt /Neuhaus

7.3 Index of mineral names 185

Gast/deposit

2:607, 662, 790, 1083, 1084

2: 62.9 2: 867, 868, 988..-991, 1607, 1608, 1725..*1728, 1797, 1798, 1823, 1824, 1858, 2234...2239, 2332, 2333, 2720...2722 2:2317 2:2353,2784,2785 2: 1954 2: 656, 2263, 2794

2:1...5,165,166,260,280, 281, 378, 458, 459, 483, 534, 597, 598, 684...695, 927...929, 1037, 1158... lf66, 1191, 1266, 1267, 1362,1579,1671,1672, 1800, 1829, 1880,2140, 2141, 2171.e.2173, 2515... 2517.2625 2:1813 2: 265, 282, 791,..793, 1310...1318, 1348, 136g..: 1371 2: 2326...2328 2: 1521

2: 510 2: 351, 365, 1390, 1574... 1578, 1638, 1662..-1665, 1786, 1787, 1807, 1879, 1891, lg31...1934, 1960

2: 381*..383, 395...397, 455,457, 514, 1293***1297, 1328, 1479,1612,1613, 2368 2:1631, 1632 2:2334. 2580...2587 2: 44, 45, 138...143, 179, 180, 333, 338, 548...550, 577, 609, 663, 955.~.958, 1012, 1041, 1058, 1098, 1151.~.1154, 1176, 1201, 1284,1303,1404, 1405, 1693, 1869, 2048...2053, 2194...2196, 2299, 2307, 2406, 2407, 2656...2658 4: 44, 49 2: 1810, 1811 2: 336

2:2502 2: 288 2:1558

Substanzl Wirt/ substance substrate

Prehnit Protoenstati Proustit

Pseudoboleit Pseudo- brookit

Pyrargyrit Pyrit

Pyroaurit Pyrochlor Pyrochroit Pyrolusit Pyromorphii Pyroxen Pyroxmangi Pyrrhotin

Quarz

Rathit I Rathit II Realgar Rhodochrosh

Rhodonit Rhdnit RBntgenit Rubidium Rutil

jafflorit jalmiak

jamarskit japphir

japphirin Sartorit Schapbachit Scheelit

Schoepit Scholzit

Schreibersit Schwerspat

2: 1788

2:1049 2:1485,1486

2:1812...181~ 2:1880...18g: 3:452

2: 1521,1522

2:1437 2:2100...210: 2: 2379

2:1893*..190:

2:1355..*135; 1362...1397 3: 261...351

2: 1789 2: 1790,17g1 2: 1778 t:2285 $:595 1:2344,2345

I: 2293, 2294

2:1413.*.1421

2: 2136 2:1022...1036 1: 202...208

2:1500.,.1502 t:1308*..1347 I: 260

2: 179z1793

2: 1985...200: 3:486...506

Gast/deposit

2: 2782 2: 2474 2: 1248, 1561, 1789. 181~ 1873,1874 2:1048 2: 1453,1477

2: 1563, 1749, 1799 2: 650, 1549, 1628, 162: 1750, 1751, 1806, 1875. 1877, 1924...1926, 1940, 1951, lgg3...1996, 2242

2:2341 2:1504 2: 1506...1508

2: 2375, 2376 2: 2345 2: 1630,1752,1872,187? 1935...1937, 1941

2: 634...639, 1358...136( 1401, 1402, 1454.s.1457, 2232, 2233, 2389, 2390, 2399, 2555..*2558

2: 1902

2:2783

2: 787 2:307,1329,1330,1373.* 1386, 1406:..1412, 1424, 1441, 1442, 1458, 1459, 1464...1466, 1478, 2148, 2149, 2354, 2432, 2448, 2607, 2718, 2719 2:1942, 1943 2:145,848,849,976.**978 1021,1112, 1156, 1215, 1709, 1710, 2514, 2544, 267512676 4:2

2:1428 2: 232, 1461, 1496..-149,

2: 2433

2:1827,1828 2:657, 658, 1489, 1490, 2817, 2818 2: 1503 2: 93, 94, 206, 244, 241 416, 523 2: 527 2: 1781, 2274, 2279


Selen

3ellait jenarmontit

2: 593..+596

Serendibit Serpentin 3handit Siderit

%lber

2:2487...248< 2: 1960 2: 2286, 2287 3: 596, 597 2: 96...164 3: 6,..18

jilberglanz 2:1562...156; Xicium 2: 260...279

jillimanit j.jtigrenit jkapolith jmithsonit

jodalith ;perrylith jphalerit

!:2336...2338

!: 2449 !:2280...2283 I: 594 !:2381

!:1579.*.1639 I: 355...390

iJcw.11 !:1348...1353 441,1442

jtannin Xaurolith jteinsalz

!:1668...1670 !:2459...2461 !: 684..+26 I: 50..*150

Stephanit Sternbergit Stibarsen Stibium, see Antimon

Stilbit Stilleit Stromeyerit

2: 2144,2145

Gebhardt jNeuhaus

186 7.3 Verzcichnis der Mineralnamen

Substanzj \Yirt/ substance substrate

Struvit Sylvin

Sylvanit Synchisit

Tacnit Talk

Tantal Tantalit Tarapacait

Tarnowitzit TCllur Tennantit Tenorit Tetradymit Tctracdrit

Thaumasit Thcnardit Thomscnolitl Thomsonit Thorium Tief-Silber-

glanz Tin, see Zim Titan

Tobcmit T6rncbohmii Topas

Tremolit Trcl-orit Tridymit

Triphylin Triigcrit Troilit Tungsten, se

Wolfram Turmalin

Tysonit

Ullmannit UmanLit

:: 927...1011 1: 151..*201

!:2295

!: gjo !:2172..*217 1: 6OS..*615 !: 324...331 !:I432 !:279j’.*.2SO

!: 22s.4

!: 1261 !: 2039, 201( I: 1SOl~~~lS@

2: 1562, ISG

2: 306**3lO

2:2109,2111

2:2452.-.24:

3:607 2:2490

2:1361,139

1399

2:2120

2:2593

2: 1961 2: 2025

Gast/dcposit Substanzl Wirt/ substance substrate

1: 23 . ..32t 39, 40 2: 14S~~~l50, 340, 55s..*

560, 630, 631, 670, S55. 1017, 1065 1099, 1147, 1157. llS3, 1717, 2071.. 2073, 2219...2221, 2297,

2305, 2418...2421, 2545, 2601, 2637...2693, 27S9 2: 203s 2: 2292, 2294

Jran Jraninit Jranocircit Jranpyro- chlor

Jallcriit Vatcrit

Vcrmiculit 1~2791 Villiaumit 2: 575..*590

2: 231s

-

--

1

1 1 1

1 7

7

2, (

I3

2: 794, 12s2, 1283

2: 1403

2:1534.1535, 1964, 197: 1977, 19SO. 2007, 2806, 2Sl6...2SlS

2: 30 2: l7S4, i7s5 2: 70...79. 1259

2:1559, l7G9.l913 2: 1633...1636, 1670, 175 . ..l755. 1927...1925)

2: 2015, 2019 2:6So, 6S1 2:6S2, 683 2:2492 2:io7

Vivianit Vrcdcnburgii

Wcddclit ~Vhcwellit \I’hitlockit Wismut

Wismutglan;

2: 362, 363, 524,.*526,

57G, 605, 79S...SO3. 949. 2146.2635

\\‘ithcrit \Vittichcnit Wolfram Wolframit n‘ollastonit \\‘iistit \Vulfcnit Wurtzit

Xantho- phyllit

Xenotim

Zeuncrit Zink

2: 24Sl

2:2357 Zinkblcnclc

2: 2319 2:1492

2: 13s7 Zinkit 2:1303.**13a

2: 2092

2: 52s. 5290 2154, 2155

Zinkosit Zinn

2: l397.2320.2335,239 2760.**276S 2: 2291

Zinnstcin Zinnwaldit

Zirkon

Zoisit Zunyit

6,

721/28/n

!: 373...376

!: 211s.2119

2: 210G

2: 337...341

3: 26 2:ls2l..~ls2

2:2279

2: 35&.,372 2:1487.*-149 2:2321...232 2: 1491 2:2S14,2Sl! 2:157O...l57

2: 2594

2: l92...206 3: 20

2:1579..*163 3: 355..*390

2:l400...140 2:2792

3: 666 2:2340...234

2: 2595.2591

Gast/dcposit

!:252, 1430

!:l501,1502

~:1930,195S. 1959 !:2013 L: 5&..61

I: 563,610,611.671...673, 3Go...SG3, 1210~~~1212, 1287, 1603, l604,171S, 1719, 2074, 2222, 2223 1: 417.415 2: 1440

i: 53, 54 5: 49...52. 159...162 1: 33...36 2: 721...725, 936...940,

1073, 1367, 1675.2519 2: 651, 652, 1731. ISOl,

2039

2:1560 2: 1321

2: 398...404, 14so

2: 1389, 1637, l666, 1667

2:2033, 2342

2: 2120

2: 31, 32, 506

2: 351. 365, 1390, l57-b.~ l57S, 163s. 1662.e.166j.

l7S6, l7S7, lSO7, lS79. 1891, l93l...1934. l9GO 2: 192...19s, 51% 519. 1331, 13SS, 1436, l609..~ 1611, 1640, 22SO...22S2

2:1639 2:106,225,15S9. 1590, 167s~*.lGs2 2: 1460,279s

2: SO4...SO9, 2479, 2jSS.*,

2591 2:2484, 2485

Gebhardt /Neuhaus

epitaxy data of inorganic and organic crystals

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