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REFERENCES

Synthesis of Hybrid Epoxy Resin Emulsions for Industrial Coating Applications Page 345

REFERENCES

[1] Gilbert, R. G. Emulsion Polymerization: A Mechanistic Approach; Academic Press:

London, 1995

[2] Saunders, K. J., “Organic Polymer Chemistry”, 2nd ed., Chapman &Hall, New York,

1988, p. 412-435

[3] Tanaka, Y., and Bauer, R. S., Curing Reactions, In “Epoxy Resins Chemistry and

Technology”, May, C. A., 2nd ed., Marcel Dekker, Inc., New York, 1988, p. 285-295.

[4] Bettena V. B., Morenike, G. A., Heike, B., Aqueous dispersion of epoxy resins. U.

S. 6,258,875, july 10, 2001.

[5] Willliams , P. R., Burt, R. V., Stable aqueous epoxy resin dispersion. U. S.

4,608,406, Augest 26, 1986.

[6] Elmore, J. D., Cecil, J. L., Stable aqueous epoxy dispersions. U. S. 4, 315,044, Feb.

9, 1982.

[7] Huybrechts, J. T., Vleminckx, V. R., Epoxy graft acrylic water based pimer surfaces.

U. S. 4,564,648, Jan. 14, 1986.

[8] Parekh, G. G., Pillai, P. T., Ponmankal, D. J., Waterborne coating composition for

metal containers. U. S. 5,387,625, Feb. 7, 1995.

[9] Allen, R. A., Scott, L. W., Curable waterborne epoxyresin coating copmpositions.

U. S. 4,098,744, Jul. 4, 1978

[10] Lee, H.; Neville, K., “Hand Book of Epoxy Resins”, McGraw Hill: New York,

1982.

[11] May, C. A.; Tanaka, Y., “Epoxy Resins Chemistry and Technology”; Marcel

Dekker: New York, 1987.

[12] Bhatnagar, M. S., “Epoxy Resins”; Universal Book: Bombay, India, 1996.

[13] Encyclopedia of Polymer Science and Technology, John Wiley & Sons: New

York, NY, 1986, Vol. 6; pp 208-271; 322-382.

[14] Ullmann's Encyclopedia of Industrial Chemistry, VCH: London, United

Kingdom, 1987, Volume A9.

REFERENCES


[15] Encyclopedia of Chemical Process and Design, Marcel Dekker: New York, 1983,

Volume 19.

[16] Bhatnagar M. S., “Epoxy Resins from 1980 to Date. Part , Polymer-Plastic

Technology and Engineering” 1993, 32, 53

[17] Watt W. R. “Epoxy resin chemistry”, Bauer, R. S. ed., ACS symposium series

114, American Chemical Society: Washington, DC, 1979.

[18] Winstein, S. and Henderson, R. B. In “Hetrocyclic compounds”, R.C. Elderfield,

Ed., Vol. 1, Wiley, New York, 1959, Chapter 1.

[19] Eliel, E.L. In “Steric effects in organic chemistry”, M. S. Newman, Ed., Wily,

New York, 1956, chapter 2.

[20] Parker, R. E. and Isaacs, N. S. “Mechanisms Of Epoxide Reactions”, Chemical

Reviews. 59, Apr. 17, 1959, pp. 737, 799.

[21] Buchanan, J. G. and Sable,H. Z. “Selective OrganicTtransformations”, B. S.

Thyagarajan, Ed., Vol. 2, Wilely, New York, 1972

[22] Srivastava, A. K., Mohan, P. Synthesis, Reactions, and Properties of Modified

Epoxy Resins, Journal of Macromolecular Science, Part C: Polymer Reviews:

Polymer Reviews, 1997, 37, 687-716.

[23] Bruins, P. F., “Epoxy Resin Technology”, John Wiley & Sons Inc., New York,

1968

[24] Potter, W.G., “Epoxide Resins”, Springer Verlag Inc., New York, 1970.

[25] Oldring, P. K. T., Hayward, G. A. “Manual for Resins For Surface Coatings”, 1,

2, 2nd Ed., SITA Ltd., London, 1987.

[26] Verkholantsev, V. V. Colloidal Aspects of Waterborne Epoxy Paints, Journal of

Coating Technology, 1996, 68, 49.

[27] Wegmann A., A. Novel waterborne epoxy resin emulsion, Journal of Coating

Technology, 1993, 65, 27-34

[28] Wegmann A., A. Chemical Resistance of Waterborne Epoxy/Amine Coatings,

Progress in Organic Coating. 32,1997, 231-239

[29] Lambourne, R.; Strivens T.A. Paint and Surface Coatings: Theory and Practice,

2nd ed.; Woodhead Publishing Limited: Cambridge, 1999.

REFERENCES

Synthesis of Hybrid Epoxy Resin Emulsions for Industrial Coating Applications 47

[30] El-Aasser, M.S.; Sudol, E.D. Features of Emulsion Polymerization. In Emulsion

Polymerization and Emulsion Polymers; Lovell, P.A.; El-Aasser, M.S.; Ed.; John

Wiley & Sons: New York, 1997.

[31] Harkins, W.D. A general theory of the mechanism of emulsion polymerization,

Journal of American Chemical Society, 1947, 69, 1428-1444

[32] Wicks, Z.W.; Jones, F.N.; Pappas, S.P. “Organic Coatings: Science and

Technology”, SPE Monographs, John Wiley & Sons: New York, 2007

[33] Taylor, J.W.; Winnik, M.A., Functional Latex and Thermoset Latex Films,

Journal of Coating Technology and Research, 2004, 1, 3, 163-190

[34] Zosel, A.; Ley, G. Influence of Cross-Linking on Structure, Mechanical-

Properties, and Strength of Latex Films, Macromolecules 1993, 26, 2222

[35] Kim, H.B., Winnik, M.A. Factors Affecting Interdiffusion Rates in Films

Prepared from Latex Particles with a Surface Rich in Acid Groups and Their Salts,

Macromolecules, 1995, 28, 2033-2041

[36] Ahagon, A.; Gent, A.N. Effect of interfacial bonding on the strength of adhesion,

Journal of Polymer Science, Part B: Polymer Physics. 1975, 13, 1285–1300

[37] Aradian, A., Raphael, E., & De Gennes, P. G. Strengthening of a polymer

interface: Interdiffusion and cross-linking. Macromolecules, 2000, 33, 9444-9451

[38] Raphael, E.; De Gennes, P. G. Rubber-rubber adhesion with connector molecules,

Journal of Physical Chemistry. 1992, 96, 4002.

[39] Hildebrand, J. And R. Scott, “The solubility of non electrolytes”, 3rd edition,

Reinhold publishing Corp., New York, 1949

[40] Charles M. Hansen, The three dimensional solubility parameters and solvent

diffusion coefficient, their importance in surface coating formulation, Copenhagen

Danish technical press, 1997

[41] Hansen, C. M. “Hansen solubility parameters – a user’s handbook”, Boca Raton,

FL: CRC Press; 2007

[42] Jowkar, D. M., Karlsson, O. Morphologies and droplet sizes of alkyd–acrylic

hybrids with high solids content,. Colloids and Surfaces A: Physicochemical

Engineering. Aspects. 2004, 245, 115–125

REFERENCES


[43] Zhu, J., Morgan, A. B., Lamelas, F. J., Wilkie, C. A. Fire properties of

polystyrene-clay nanocomposites. Chemistry of Materials. 2001, 13, 3774–3780

[44] Caruso, F. Nanoengineering of Particle Surfaces, Advanced Materials. 2001. 11–

22

[45] Caruso, F., Spasova, M., Susha, A., Giersig, H., Caruso, R. A. Magnetic

nanocomposite particles and hollow spheres constructed by a sequential layering

approach, Chemistry of Materials. 2001, 13, 109–116

[46] Caruso, R. A., Susha, A., Caruso, F. Multilayered titania, silica and Laponite

nanoparticle coatings on polysterene colloidal templates and resulting inorganic

hollow spheres, Chemistry of Materials. 2001, 13, 400-409

[47] Cho, J. D., Ju, H. T., Hong, J. W. Photocuring kinetics of UVinitiated free-radical

photopolymerizations with and without silica nanoparticles, Journal of Polymer

Science, Part A, Polymer Chemistry, 2005, 43, 658–670

[48] Luo J., Wang X. H., Li J., Zhao X. J., Wang F. S.. Conductive hybrid film from

polyaniline and polyurethane–silica, Polymer, 2007; 48, 4368–4374.

[49] Fleming M. S., Mandal T. K., Walt D.R., Nanospheremicrosphere assembly:

methods for core-shell materials preparation, Chemistry of Materials, 2001; 13,

2210–2216.

[50] Hu Y. Q., Wu H. P., Gonsalves K. E., Merhari L. Nanocomposite resists for

electron beam nanolithography. Microelectronic. Engineering. 2001; 56, 289–294

[51] Supaphol, P., Harnsiri W. and Junkasem, J. Effects of Calcium Carbonate and Its

Purity on Crystallization and Melting Behavior, Mechanical Properties, and

Processability of Syndiotactic Polypropylene, Journal of Applied Polymer Science.

2004, 92, 201–212.

[52] Tiarks, F., Landfester K. and Antonietti, M. Silica nanoparticles as surfactants and

fillers for latexes made by miniemulsion polymerization, Langmuir. 2001, 17, 5775-

5780.

[53] Tiarks, F., Landfester, K. and Antonietti, M. Encapsulation of carbon black by

miniemulsion polymerization, Macromolecular Chemistry and Physics. 2001, 202,

51–60

REFERENCES


[54] Tiarks, F., Landfester, K., Antonietti, M. One-step preparation of polyurethane

dispersions by mini-emulsion polyaddition, Journal of Polymer Science, Part A:

Polymer Chemistry. 2001, 39, 2520–2524

[55] Wen Z H., Wu M. M., Takahito I., Masataka K., Lin Z. X., Osamu Y. Effects of

alumina whisker in (PEO)8–LiClO4-based composite polymer electrolytes. Solid

State Ionics. 2002, 148, 185–191

[56] Liu, H., Ye H., Zhang, Y. Preparation and characterization of PMMA/flaky

aluminium composite particle in the presence of MPS, Colloids and Surfaces A:

Physicochemical and Engineering Aspects. 2008, 315, 1-6

[57] Duguet, E., Abboud, M. , Morvan, F., Maheu, P., Fontanille, M. PMMA

encapsulation of alumina particles through aqueous suspension polymerisation

processes, Macromolecular. Symposia. 2000, 151, 365-370

[58] Zeng, Z., Yu, J., Guo, Z. X. Preparation of Functionalized Core-Shell

Alumina/Polystyrene Composite Nanoparticles, Macromolecular Chemistry and

Physics. 2005, 206, 1558–1567

[59] Fleischhaker, F. and Zentel, R. Photonic crystals from core–shell colloids with

incorporated highly fluorescent quantum dots, Chemistry of Materials. 2005, 17,

1346–1351

[60] Antonietti, M., Tauer, K. 90 Years of Polymer Latexes and Heterophase

Polymerization: More vital than ever, Macromolecular Chemistry and Physics. 2003,

204. 207–219

[61] Schmid, A., Armes, S. P., Leite C. A. P and Galembeck, F. Efficient preparation

of polystyrene/silica colloidal nanocomposite by emulsion polymerization using a

glycerol functionalized silica sol, Langmuir. 2009, 25, 2486–2494.

[62] Voorn, D. J., Ming W. and Herk, A. M. Polymer-clay nanocompiste latex

particles by inverse pickering emulsion polymerization stabilized with hydrophobic

montmorillonite plates. Macromolecules. 2006, 39, 2137–2143

[63] Schmid, A., Fujii S. and Armes, S. P. Polystyrene–silica nanocomposite particles

via alcoholic Dispersion polymerization using a cationic azo initiator. Langmuir,

2006, 22, 4923–4927

REFERENCES


[64] Schmid, A., Fujii, S., Armes, S. P., Leite, C. A. P., Galembeck, F., Minami, H.,

Saito N. and Okubo, M. Polystyrene–silica colloidal nanocomposite particles

prepared by alcoholic dispersion polymerization. Chemistry of Materials. 2007, 19,

2435–2445

[65] Wu, D., Ge, X., Zhang, Z., Wang M. and Zhang, S. Novel One-Step Route for

Synthesizing CdS/Polystyrene Nano- composite Hollow Spheres, Langmuir. 2004,

20, 5192–5195.

[66] Yi, D., Lee, S. and Ying, J. Synthesis and Applications of Magnetic

Nanocomposite Catalysts, Chemistry of Materials. 2006, 18, 2459–2461

[67] Erdem, B., Sudol, E. D., Dimonie, V. L., Mohamed, S. Encapsulation of inorganic

particles via miniemulsion polymerization. I. Dispersion of titanium dioxide particles

in organic media using OLOA 370 as stabilizer, Journal of Polymer Science, Part A:

Polymer Chemistry. 2000, 38, 4419–4430.


particles via miniemulsion polymerization. II. Preparation and characterization of

styrene miniemulsion droplets containing TiO2 particles, Journal of Polymer Science,

Part A: Polymer Chemistry. 2000, 38, 4431–4440.


particles via miniemulsion polymerization. III. Characterization of encapsulation.

Journal of Polymer Science, Part A: Polymer Chemistry. 2000, 38, 4441–4450.

[70] Erdem, B., Sudol, E.D., Dimonie, V.L., El-Aasser, M.S. Encapsulation of

inorganic particles via miniemulsion polymerization, Macromolecular. Symposia.

2000, 155, 181–198

[71] Landfester, K., Pawelzik, U., Antonietti, M. Polydimethylsiloxane latexes and

copolymers by polymerization and polyaddition in miniemulsion, Polymer. 2005, 46,

9892–9898.

[72] Tsavalas, G., Schork, F.J., Landfester, K. Particle morphology development in

hybrid miniemulsion polymerization, Journal of Coating Technology and Research.

2004, 1, 53–63.

REFERENCES


[73] Schork, F.J., Poehlein, G.W., Wang, S., Reimers, J., Rodrigues, J., Samer , C.

Miniemulsion polymerization , Colloids and Surfaces A: Physicochemical and

Engineering Aspects. 1999, 153, 39-45

[74] Thickett, S. C. , Gilbert, R. G. Emulsion polymerization: State of the art in

kinetics and mechanisms, Polymer.2007, 48, 6965-6991

[75] El-Aasser, M. S., Sudol, E. D. Miniemulsions: overview of research and

applications, Journal of Coating Technology and Research. 2004, 1, 21–31.

[76] Asua, J. M. Miniemulsion polymerization, Progress in Polymer Science. 2002,

27, 1283–1346.

[77] Schork; F. J., Luo; Y. W., Smulders; W., Russum; J. P., Butte; A., Fontenot, K.

Miniemulsion polymerization, Polymer Particles, 2005, 175, 129-255

[78] Landfester, K. Miniemulsions for nanoparticle synthesis, Colloid Chemistry.

2003, 227, 75-123

[79] Dong, Y. A molecular theory for particle nucleation: Primary particle formation

in emulsion polymerization, Journal of Colloid and Interface Science. 2008, 326,

354–359

[80] Arbina, L. D., Barandiaran, M.J., Gugliotta L. M. and Asuat, J. M. Emulsion

polymerization: particle growth kinetics, Polymer, 1996, 37, 5907-5916

[81] Ostwald, W. Over the supposed isomerism of the red and yellow mercuric oxide

and the surface tension of solid body, Physical Chemisry stoichiometric, 1900, 34,

495-503

[82] Landfester, K. Polyreactions in Miniemulsions, Macromolecular Rapid

Communication. 2001, 22, 896-936

[83] Walstra, P. Emulsion stability, in: P. Becher (Ed.),Encyclopedia of emulsion

technology, Marcel Dekker, New York, 1996, pp. 1 – 62

[84] Floury, J., Desrumaux, A., Axelos, M.A.V., Legrand, J. Effect of high pressure

homogenisation on methycellulose as food emulsifier, Journal of Food Engineering.

2003, 58, 227-238

[85] Landfester, K., Eisenblatter, J., Rothe, R. Preparation of polymerizable

miniemulsions by ultrasonication, Journal of Coating Technology and Research.

2004, 1, 65– 68

REFERENCES


[86] Ugelstad, J., Elaasser, M., Vanderho, J. W. Emulsion polymerization initiation of

polymerization in monomer droplets, Journal of Polymer Science: Polymer Letters.

1973, 11, 503–513

[87] Chern, C., Chen, T. Effect of Ostwald ripening on styrene mini-emulsion

stabilized by reactive cosurfactants, Colloids and Surfaces. A: Physicochemical and

Engineering. Aspects. 1998, 138, 65–74.

[88] Capek, I. Sterically and electrosterically stabilized emulsion polymerization.

Kinetics and preparation, Advances in Colloid Interface Science. 2002, 99, 77-162

[89] Lin, W. J., Chen; W. C., Wu, W. C., Niu, Y. H., Jen, A. K.-Y. Synthesis and

Optoelectronic Properties of Starlike Polyfluorenes with Silsesquioxane,

Macromolecules. 2004, 37, 2335-2341.

[90] Yen, C.T., Wang, Y.W. and Chen, W.C. Photosensitive Polyimide/Silica Hybrid

Optical Materials: Synthesis, Properties, and Patterning, Polymer. 2005, 46, 6959-

6967

[91] Wang, L., Yoon, M-H, Lu, G., Yang, Y. High-performance transparent inorganic–

organic hybrid thin-.lmn-type transistors A. Facchetti and T. J. Marks, Nature

materials. 2006, 5, 893-900.

[92] Hwang, D. H., Yang , Y. S., Lee, J. I., Kim , S. H., Park , O. H., Kim, H. C., Lee,

V., Dubois, G., Miller., R. D. Organic thin film transistor using a photo-curable

organic/inorganic hybrid material as a gate dielectric., Journal of Nanoscience and

Nanotechnology. 2008, 8, 4561-4564

[93] Dutta, S., Lewis, S. D. and Dodabalapur, A. Hybrid organic/inorganic ambipolar

thin film transistor chemical sensor, Applied Physics Letters. 2011, 98, 3504-3507

[94] Lee; L. H., Chen, W. C. High-Refractive-Index Thin Films Prepared from

Trialkoxysilane-Capped Poly(methyl methacrylate)−Titania Materials, Chemistry of.

Materials. 2001, 13, 1137–1142.

[95] Tiarks, F., Landfester K. and Antonietti, M. Silica nanoparticles as surfactants and

fillers for latexes made by miniemulsion polymerization, Langmuir. 2001, 17, 5775-

5780.

REFERENCES


[96] Tiarks, F., Landfester, K. and Antonietti, M. Encapsulation of carbon black by

miniemulsion polymerization, Macromolecular Chemistry and Physics. 2001, 202,

51–60

[97] Tiarks, F., Landfester, K., Antonietti, M. One-step preparation of polyurethane

dispersions by mini-emulsion polyaddition, Journal of Polymer Science, Part A:

Polymer Chemistry. 2001, 39, 2520–2524

[98] Wei, Y., Bakthavatchalam, R., Whitecar, C. K. Synthesis of New Organic-

Inorganic Hybrid Glasses, Chemistry of Materials. 1990. 2, 337-339

[99] Corriu, R. J. P., Leclercq, D. Recent developments of molecular chemistry for

sol–gel processes, Angewandte Chemie International Edition. 1996, 35, 1420–1436

[100] Schottner, G. Hybrid sol–gel derived polymers: Applications of multifunctional

materials, Chemistry of.Materials. 2001, 13, 3422–3435

[101] Rahimi, N. F. A. and Langroudi, A. E. Preparation and Characterization of

Aromatic Amine Cured Epoxy-Silica Hybrid Inorganic-Organic Coating via In Situ

Sol-gel, Iranian Polymer Journal. 2005, 14, 155-162

[102] Yeh, J. T., Chen, C. L., Huang, K. S. Preparation and Application of Fluorocarbon

Polymer/ SiO2 Hybrid Materials, Part 1: Preparation and Properties of Hybrid

Materials, Journal of Applied Polymer Science. 2007, 103, 1140–1145

[103] Wenbo, L., Jinqing, Q., Zhong, L. and Huanqin , C. Preparation of

organic/inorganic hybrid polymer emulsions with high silicon content and sol-gel-

derived thin films, Product Engineering and Chemical Technology: Chinese Journal

of Chemical Engineering. 2010, 18, 156-163

[104] Liaoa, W., Tenga, H., Qua, J., Masuda, T., Liaoa, W., Tenga, H., Qua, J., Masuda,

T. Fabrication of chemically bonded polyacrylate/silica hybrid films with high silicon

contents by the sol–gel method, Progress in Organic Coatings. 2011, 71, 376–383

[105] Zhang, C., Zhang, X., Dai, J., Bai, C. Synthesis and properties of PDMS modified

waterborne polyurethane–acrylic hybrid emulsion by solvent-free method, Progress

in Organic Coatings. 2008, 63, 238–244

[106] Wu, D., Qiu, F., Xu, H., Zhang, J., Yang, D. Preparation, Characterization, and

Properties of Environmentally Friendly Waterborne Poly(urethane acrylate)/Silica

Hybrids, Journal of Applied Polymer Science. 2011, 119, 1683–1695

REFERENCES


[107] Naghash, H. J., Abili, B. Synthesis of a silicone containing allylic monomer and

its uses in the waterborne polyurethane/vinyl acetate–acrylic hybrid emulsion

copolymers, Progress in Organic Coatings. 2010, 69, 486–494

[108] Wang, L., Shen, Y., Lai, X., Li, Z. Effect of Nanosilica Content on Properties of

Polyurethane/Silica Hybrid Emulsion and Its Films, Journal of Applied Polymer

Science. 2011, 119, 3521–3530

[109] Wada, T., Inui, K., Uragami, T. Properties of Organic–Inorganic Composite

Materials Prepared from Acrylic Resin Emulsions and Colloidal Silicas, Journal of

Applied Polymer Science.2006, 101, 2051–2056

[110] Wen, X. F., Li, M. Z., Pi, P. H., Chen, J., Yang, Z. R. Study of the

physicochemical properties of silica powder and the stability of organic–inorganic

hybrid emulsion in the presence of ethanol, Colloids and Surfaces. A:

Physicochemical and Engineering. Aspects. 2008, 327, 103–110

[111] Yin, D., Zhang, Q., Yin, C., Jia, Y. H. Zhang , Effect of particle coverage on

morphology of SiO2-covered polymer microspheres by Pickering emulsion

polymerization, Colloids and Surfaces. A: Physicochemical and Engineering.

Aspects.2010, 367, 70–75

[112] Ni, K. F., Shan, G. R. and Weng, Z. X. Synthesis of Hybrid Nanocapsules by

Miniemulsion (Co)polymerization of Styrene and γ-

Methacryloxypropyltrimethoxysilane, Macromolecules. 2006, 39, 2529–2535

[113] Ni, K. F., Shan, G. R., Weng, Z. X., Othman; N. S., Fevotte; G., Lefebvre, F.,

Lami, E. B. Synthesis of Hybrid Core−Shell Nanoparticles by Emulsion

(Co)polymerization of Styrene and γ-Methacryloxypropyltrimethoxysilane,

Macromolecules. 2005, 38, 7321–7329

[114] Lu, Y., McLellan, J., Xia, Y. Synthesis and crystallization of hybrid spherical

colloids composed of polystyrene cores and silica shells, Langmuir. 2004, 3464-3470

[115] Chen, M., Wu, L., Zhou, S. and You, B. Synthesis of Raspberry-like PMMA/SiO2

Nanocomposite Particles via a Surfactant-Free Method, Macromolecules. 2004, 37,

9613–9619

REFERENCES


[116] Sertchook H. and Avnir, D. Submicron Silica/Polystyrene Composite Particles

Prepared by a One-Step Sol−Gel Process, Chemistry of Materials. 2003, 15, 1690–

1694

[117] Tissot, I., Novat, C., Lefebvre F. and Bourgeat-Lami, E. Hybrid latex particles

coated with silica, Macromolecules. 2001, 34, 5737–5739

[118] Tissot, I., Reymond, J.P., Lefebvre F. and Bourgeat-Lami, E. SiOH-

functionalized polystyrene latexes. A step toward the synthesis of hollow silica

nanoparticles, Chemistry of Materials. 2002, 14, 1325–1331

[119] Bourgeat-Lami, E., Tissot, I. and Lefebvre, F. Synthesis and Characterization of

SiOH-Functionalized Polymer Latexes Using Methacryloxy Propyl Trimethoxysilane

in Emulsion Polymerization; Macromolecules. 2002, 35, 6185-6191

[120] Lee, J., Hong, C. K., Choe, S., Shim, S. E. Synthesis of polystyrene/silica

composite particles by soap-free emulsion polymerization using positively charged

colloidal silica, Journal of Colloid and Interface Science. 2007, 310, 112–120,

[121] Zhang, Y., Chen, H., Shu, X., Zou, Q. and Che, M. Fabrication and

characterization of raspberry-like PSt/SiO2 composite microspheres via miniemulsion

polymerization , Colloids and Surfaces A: Physicochemical Enginerring Aspects.

2009, 350, 26-32,

[122] Naderi, N., Sanjani, N. S., Naderi, B. K., Majidi, R. F. Preparation of organic–

inorganic nanocomposites with core-shell structure by inorganic powders, Journal of

Applied Polymer Science. 2006, 15, 2943–2950

[123] Zhou, J., Zhang, S., Qiao, X., Li, X., Wu, L. Synthesis of SiO2/poly(styrene-co-

butyl acrylate) nanocomposite microspheres via miniemulsion polymerization,

Journal of Polymer Science, Part A, Polymer Chemistry. 2006, 44, 3202–3209

[124] Ding, J., Hudalla, C. J., Cook, J. T., Walsh, D. P., Boissel, C. E., Iraneta, P. C.,

O’Gara, J. E. Synthesis and surface chemistry of spherical mesoporous

organicinorganic hybrid particles with an integrated alcohol functionality on the pore

surface. Chemistry of Materials. 2004, 16, 670–681.

[125] Percy M. J. and Armes, S. P. Surfactant-Free Synthesis of Colloidal Poly(methyl

methacrylate)/Silica Nanocomposites in the Absence of Auxiliary Comonomers,

Langmuir.2002, 18, 4562–4565

REFERENCES


[126] Rong, Q., Zhu, A., Zhong, T. Poly (styrene-n-butyl acrylate-methyl

methacrylate)/Silica Nanocomposites Prepared by Emulsion Polymerization, Journal

of Applied Polymer Science. 2011, 120, 3654–3661

[127] Zhang, S. W., Zhou, S. X., Weng, Y. M. and Wu, L. M. Synthesis of

SiO2/Polystyrene Nanocomposite Particles via Miniemulsion Polymerization,

Langmuir, 2005, 21, 2124–2128

[128] Gu , S., Kondo, T. and Konno, M. Preparation of silica–polystyrene core–shell

particles up to micron sizes, Journal of Colloid and Interface Science. 2004, 272,

314-320

[129] Yao, L., Yang, T., Cheng, S. Synthesis and Characterization of Poly(fluorinated

acrylate)/Silica Hybrid Nanocomposites, Journal of Applied Polymer Science. 115,

2010, 3500–3507

[130] Qu, A., Wen, X., Pi, P., Cheng, J. and Yang, Z. Synthesis and characterization of

hybrid fluoro-emulsion based on silica/copolymer composite particles, Polymer

International. 2008, 57, 1287–1294

[131] Xiao, X., Xu, R. Preparation and Surface Properties of Core-Shell Polyacrylate

Latex Containing Fluorine and Silicon in the Shell , Journal of Applied Polymer

Science. 2011, 119, 1576–1585

[132] McNamee, C. E., Matsumoto, M., Hartley, P. G., Mulvaney, P., Tsujii, Y. and

Nakahara, M. Interaction Forces and Zeta Potentials of Cationic Polyelectrolyte

Coated Silica Surfaces in Water and in Ethanol: Effects of Chain Length and

Concentration of Perfluorinated Anionic Surfactants on Their Binding to the Surface,

Langmuir. 2001, 17, 6220–6227

[133] Lu, Y., McLellan, J., Xia, Y. Synthesis and crystallization of hybrid spherical

colloids composed of polystyrene cores and silica shells, Langmuir. 2004, 3464-3470

[134] Tissot, I., Novat, C., Lefebvre F. and Bourgeat-Lami, E. Hybrid latex particles

coated with silica, Macromolecules. 2001, 34, 5737–5739

[135] Graf, C., Vossen, D. L. J., Imhof, A. and Blaaderen, A. V., A General Method To

Coat Colloidal Particles with Silica, Langmuir, 2003, 19, 6693–6700

REFERENCES


[136] Armes, S. P., Barthet, C., Hickey, A. J., Cairns, D. B. Synthesis of novel polymer-

silica colloidal nanocomposites via free-radical polymerization of vinyl monomers,

Advanced Materials. 1999, 11, 408-410

[137] Armes, S. P., Percy, M. J. Surfactant free synthesis of colloidal poly(methyl

methacrylate)/silica nanocomposite in absence of auxiliary comonomer, Langmuir.

2002, 18, 4562-4565

[138] Armes, S. P., Percy; M. J., Wiese, H. Synthesis and characterization of novel film

polymer/silica colloidal nanocomposites, Langmuir. 2001, 17, 4770–4778

[139] Wu, L.M., Chen, M., Zhou, S.X. and You, B. A novel preparation method of

raspberry-like PMMA/SiO2 hybrid microspheres, Macromolecules. 2005, 38, 6411–

6417.

[140] Wu, L.M., Chen, M., Zhou, S.X. and You, B. Synthesis of raspberry-like

PMMA/SiO2 nanocomposite particles via a surfactant-free method, Macromolecules.

2004, 37, 9613–9617

[141] Perro, A., Reculusa, S., Bourgeat-Lami, E., Duguet, E., Ravaine, S. Synthesis of

hybrid colloidal particles: From snowman-like to raspberry-like morphologies,

Colloid and Surfaces A: Physicochemical Enginerring Aspects. 2006, 284–285, 78–

83

[142] Bourgeat-Lami, E., Lang, J. Encapsulation of Inorganic Particles by Dispersion

Polymerization in Polar Media , Journal of Colloid and Interface Science. 1998, 197,

293-308

[143] Percy, M. J., Barthet, C., Lobb, J. C., Khan, M. A., Lascelles, S. F., Vamvakaki,

M. and Armes, S. P. Synthesis and characterization of vinyl polymer−silica colloidal

nanocomposites. Langmuir, 2000, 16, 6913-6920

[144] Amalvy, J. I., Percy, M. J., Armes, S. P., Wiese, H. Synthesis and

Characterization of Novel Film-Forming Vinyl Polymer/Silica Colloidal

Nanocomposites, Langmuir, 2001, 17, 4770-4778

[145] Tamai, T., Watanabe, M. Acrylic Polymer/Silica Organic–Inorganic Hybrid

Emulsions for Coating Materials: Role of the Silane Coupling Agent, Journal of

Polymer Science, part A, Polymer Chemistry. 2006, 44, 4736–4742

REFERENCES


[146] Tamai, T. Watanabe acrylic polymer/silica hybrids prepared by emulsifier-free

emulsion polymerization and the sol–gel process, Journal of Polymer Science, part

A, Polymer Chemistry. 2006, 44, 273–280

[147] Ding, L. , Wang, G. Y., Hu, C. P., Wu, S. S. Preparation and Characterization of

Polysiloxane-Modified Epoxy Resin Aqueous Dispersions and Their Films, Journal

of Applied Polymer Science. 2005, 98, 880–885

[148] Javaheriannaghash, H. , Johari, B. Synthesis and characterization of an acrylate-

containing siliconized epoxy hybrid oligomer and its emulsion copolymerization with

vinyl acetate/2-ethylhexylacrylate monomers, Progress in Organic Coatings. 2012,

73, 155– 161

[149] Wan, T., Lin, J., Li, X., Xiao, W. Preparation of epoxy-silica-acrylate hybrid

coatings, Polymer Bulletin. 2008, 59, 749–758

[150] Chen, M., Zhou, S., Wu, L., Xie, S., Chen, Y. Preparation of Silica-Coated

Polystyrene Hybrid Spherical Colloids , Macromolecular Chemistry and Physics.

2005, 206, 1896–1902

[151] Donescu, D., Serban, S., Petcu, C., Lavinia Nistor, C., Ghiurea, M., Corobea,

M.C. Polymer–silica hybrids obtained by microemulsion Polymerization, Colloid

and Polymer Science. 2007, 285, 1455–1462

[152] Ge, X., Wang, M., Yuan, Q., Wang, H. and Ge, X. The morphological control of

anisotropic polystyrene/silica hybrid particles prepared by radiation miniemulsion

polymerization, Chemical Communications. 2009, 2765–2767

[153] Haddad, T. S. and Lichtenhan, J. D. Hybrid organic-inorganic thermoplastics:

styryl-based polyhedral oligomeric silsesquioxane polymers, Macromolecules, 1996,

29, 7302–7304

[154] Mater, P. T., Jeon, H.G., Romo-Uribe, A., Haddad, T.S. and Lichtenhan, J.D.

Mechanical Relaxation and Microstructure of Poly(norbornyl-POSS) Copolymers,

Macromolecules, 1999, 32, 1194-1203

[155] Zheng, L., Kasi, R. M., Farris, R. J., Coughlin, E. B. Synthesis and thermal

properties of hybrid copolymers of syndiotactic polystyrene and polyhedral

oligomeric silsesquioxane, Journal of Polymer Science, part A, Polymer Chemistry.

2002, 40, 885–891

REFERENCES


[156] Xu, H., Kuo, S. W., Lee, J. S., Chang, F. C. Glass transition temperatures of poly

(hydroxystyrene co vinylpyrrolidone co isobutylstyryl polyhedral

oligosilsesquioxanes), Polymer. 2002, 43, 5117-5124

[157] Maantz, J. D., Jones, P. F., Chaffee, K. P. Thermolysis of polyhedral oligomeric

Oligosilsesquioxane (POSS) macromers and POSS siloxane copolymers, Chemistry

of Materials. 1996, 8, 1250-1259.

[158] Zheng, L., Farris, R. J., Bryan, E. C. Novel Polyolefin Nanocomposites: Synthesis

and Characterization of Metallocene Catalyzed Polyolefin Polyhedral Oligomeric

Silsesquioxanes (POSS) Copolymers. Macromolecule. 2001, 34, 8034-8039

[159] Xu, H. Y., Gao, X. Y., Guang, S. Y., Chang, F. Z. Synthesis and Characterization

of Novel Organic/Inorganic Hybrid Polymers Containing Polyhedral

Oligosilsesquioxanes, Chinese Chemical Letters. 2005, 16, 41-44

[160] Castelvetro, V., Ciardelli, F., Vita, C. D., Puppo, A. Hybrid Nanocomposite Films

from Mono- and Multi-Functional POSS Copolyacrylates in Miniemulsion,

Macromolecule Rapid Communication. 2006, 27, 619–625

[161] Micusik, M., Bonnefond, A., Reyes, Y., Bogner, A., Chazeau, L., Plummer, C.,

Paulis, M., Leiza, J. R. Morphology of Polymer/Clay Latex Particles Synthesized by

Miniemulsion Polymerization: Modeling and Experimental Results, Macromolecular

Reaction Enginerring. 2010, 4, 432–444.

[162] Reyes, Y., Paulis, M., Leiza, Modeling the equilibrium morphology of

nanodroplets in the presence of nanofillers , Journal of Colloid Interface Science.

2010, 352, 359-365

[163] Choo, D., Jang, L. W. Preparation and charectrization of PMMA-clay hybrid

composite by emulsion polymerization, Jornal of Applied Polymer Science. 1996,

61, 1117-1122

[164] Lee, D. C., Jang, L. W. Characterization of Epoxy–Clay Hybrid Composite

Prepared by Emulsion Polymerization, Journal of Applied Polymer Science. 2005,

68,1997-1998

[165] Fu, L., Yu, Z., Wang, W., Yu,C., Zhao,S., Zhong, J., Cui, K., Shao, H. Epoxy

Resin/Exfoliated Clay Hybrid Materials With High Thermal Properties, Polymer

Composites. 2009, 30, 948–954

REFERENCES


[166] Jang, L.W., Kang, C. M., Lee, D. C. A New Hybrid Nanocomposite Prepared by

Emulsion Copolymerization of ABS in the Presence of Clay, Journal of Polymer

Science part B: Polymer Physics. 2001, 39, 719 –727

[167] Diaconu, G., Asua, J. M., Paulis, M., Leiza, J. R. High solids content waterborne

polymer-clay nanocomposites, Macromolecular Symposium. 2007, 259, 305–317

[168] Diaconu, G., Paulis, M., Leiza, J. R. Synthesis and Properties of Waterborne

Acrylic/Montmorillonite Nanocomposite Coatings by Miniemulsion Polymerization,

Macromolecular Reaction Engineering. 2008, 2, 80-89

[169] Diaconu, G., Micusik, M., Bonnefond, A., Paulis, M., Leiza, J. R. Macroinitiator

and Macromonomer Modified Montmorillonite for the Synthesis of Acrylic/MMT

Nanocomposite Latexes, Macromolecular. 2009, 42, 3316–3325

[170] Pan, M., Shi, X., Li, X., Hu, H., Zhang, L. Morphology and Properties of

PVC/Clay Nanocomposites via in Situ Emulsion Polymerization, Journal of Applied

Polymer Science. 2004, 94, 277–286

[171] Suguna Lakshmi, M., Narmadha, B., Reddy, B. S. R. Enhanced thermal stability

and structural characteristics of different MMT-Clay/epoxy-nanocomposite materials,

Polymer Degradation Stability. 2008, 93, 201-213

[172] Corobea, M. C., Donescu, D., Serban, S., Ducu, C., Malinovschib, V., Stfanescu,

I. Polymer-nanoclay hybrids obtained by emulsion polymerization of vinyl acetate in

the presence of an organically modified montmorillonite, Revue Roumaine De

Chimie. 2006, 15, 39–46

[173] Samakande, A., Sanderson, R. D., Hartmann, P. C. Encapsulted clay particles in

polystyrene by RAFT mediated miniemulsion polymerization, Journal of Polymer

Science, Part A: Polymer Chemistry. 2008, 46, 7114–7126

[174] Yano, K., Usuki, A., Okada, A. Synthesis and properties of polyimide-clayhybrid

films, Journal of Polymer Science, Part A: Polymer Chemistry. 1997, 35, 2289–

2294.

[175] Koo, C. M., Kim, S. O., Chung, I. J. Study on Morphology Evolution,

Orientational Behavior, and Anisotropic Phase Formation of Highly Filled Polymer-

Layered Silicate Nanocomposites, Macromolecule. 2003, 36, 2748–2757

REFERENCES


[176] Sinha, R.S., Okamoto, K., Okamoto, M. Structure propertie relationship in

biodegradable poly(butylenes succinate)/ layerd silicate nanocomposites,

Macromolecule 2003, 36, 2355–2367

[177] Kojima, Y., Usuki, A., Kawasumi, M., Okada, A., Fukushima, Y., Yurauchi, T. J.

Mechanical properties of nylon 6 clay hybrid, Journal of Material Research. 1993, 8,

1185–1189

[178] Lelu, S., Novat, C., Graillat, C., Guyot, A. E Bourgeat-Lami, Encapsulation of an

organic phthalocyanine blue pigment into polystyrene latex particles using a

miniemulsion polymerization process, Polymer International. 52, 2003, 542–547

[179] Bourgeat-lami, E., Lang, J. Encapsulation of inorganic particles by dispersion

polymerization in polar media: Effect of silica size and concentration on the

morphology of silica-polystyrene composite particles, Journal of Colloid and

Interface Science. 1999, 210, 281–289


particles via miniemulsion polymerization. I. Dispersion of titanium dioxide particles

in organic media using OLOA 370 as stabilizer, Journal of Polymer Science, Part A:

Polymer Chemistry. 2000, 38, 4419–4430.


particles via miniemulsion polymerization. II. Preparation and characterization of

styrene miniemulsion droplets containing TiO2 particles, Journal of Polymer Science,

Part A: Polymer Chemistry. 2000, 38, 4431–4440.


particles via miniemulsion polymerization. III. Characterization of encapsulation.

Journal of Polymer Science, Part A: Polymer Chemistry. 2000, 38, 4441–4450.

[183] Erdem, B., Sudol, E.D., Dimonie, V.L., El-Aasser, M.S. Encapsulation of

inorganic particles via miniemulsion polymerization, Macromolecular. Symposia.

2000, 155, 181–198

[184] Al-Ghamdi, G. H., Sudol, E. D., Dimonie, V. L., Mohamed, S. Encapsulation of

Titanium Dioxide in Styrene/n-Butyl Acrylate Copolymer by Miniemulsion

Polymerization, Journal of Applied Polymer Science. 2006, 101,3479–3486.

REFERENCES


[185] Zhang, M., Gao, G., Li, C. Q., Liu, F. Q. Titania-Coated Polystyrene Hybrid

Microballs Prepared with Miniemulsion Polymerization, Langmuir, 2004, 20, 1420–

1424

[186] Yu, D. G., An, J. H., Bae, J. Y., Ahn, S. D., Kang, S. Y., Suh, K. S. Preparation of

Titanium Dioxide/Poly(methyl methacrylate-co-n-butyl acrylate-co-methacrylic acid)

Hybrid Composite Particles Via Emulsion Polymerization, Journal of Applied

Polymer Science. 2005, 97, 72–79

[187] Topfer, O., Schmidt-Naake, G. Surface fuctionalized inorganic particle in

miniemulsion polymerization, Macromolecular Symposium. 2007, 248, 239–248

[188] Wu, Y., Zhang, Y., Xu, J., Chen, M., Wu, L. One-step preparation of PS/TiO2

nanocomposite particles via miniemulsion polymerization, Journal of Colloid

Interface Science. 2010, 343, 18–24

[189] Hojjati, B., Sui, R., Charpentier, P.A., Synthesis of TiO2/PAA nanocomposite by

RAFT polymerization, Polymer. 2007, 48, 5850-5858

[190] Rotzinger, F.P., Kesselman-Truttmann, J.M., Hug, S. J., Shkover, V., Gratzel, M.

Structure and Vibrational Spectrum of Formate and Acetate Adsorbed from Aqueous

Solution onto the TiO2 Rutile Surface, Journal of Physical Chemistry,Part B. 2004,

108, 5004-5017

[191] Bussels, R., Bergman-Göttgens, C., Meuldijk, J. , Koning, C. Multiblock

copolymers synthesized by miniemulsion polymerization using multifunctional

RAFT agents, Macromolecule. 2004, 37, 9299-9301

[192] Jin, Y. Z. , Hahn, Y.B., Nahm, K.S., Lee, Y.-S, Prepreation of stable

polyurethane-polystyrene copolymer emulsions via RAFT polymerization process,

Polymer. 2005, 46, 11294-1130

[193] Xiang-Chen, C., Yu-Zi, J., Youn-Sik, L. Preparation of nano-TiO2/polyurethane

emulsions via in situ RAFT polymerization, Progress in Organic Coatings. 2010, 69,

534–538

[194] Chattopadhyay, D.K., Raju, K.V.S.N. Structural engineering of polyurethane

coatings for high performance applications, Progress in Polymer Science. 32, 2007,

352-418

REFERENCES


[195] Sabzi, M., Mirabedini, S.M., Zohuriaan-Mehr, J., Atai, M. Surface modification

of TiO2 nanoparticles with silane coupling agent and inverstigation of its effect on the

properties of polyurethane composit coating, Progress in Organic Coatings. 2009,

65, 222-228

[196] Chen, T., Colver, P. J., Bon, S. A. F. Organic–Inorganic Hybrid Hollow Spheres

Prepared from TiO2-Stabilized Pickering Emulsion Polymerization, Advanced

Materials. 2007, 19, 2286–2289

[197] Dinsmore, A.D., Hsu, M.F., Marquez, M., Bausch, A.R., Weitz, D.A.

Colloidosomes: selectively permeable capsules composed of colloidal particles,

Science. 2002, 298, 1006–1009

[198] Bon, S. A. F., Cauvin, S., Colver , P. J. Colloidosomes as micron-sized

polymerisation vessels to create supracolloidal interpenetrating polymer network

reinforced capsules , Soft Matter. 2007, 3, 194-199

[199] Petchthanasombat, C., Tiensing, T., Sunintaboon, P. Synthesis of zinc oxide-

encapsulated poly(methyl methacrylate)–chitosan core–shell hybrid particles and

their electrochemical property, Journal of Colloid and Interface Science. 2012, 369,

52-57.

[200] Ren, Y., Chen, M., Zhang, Y., Wu, L. Fabrication of rattle-type TiO2/SiO2

core/shell particles with both high photoactivity and UV-shielding property,

Langmuir. 2010, 26, 11391-11396.

[201] Haroun, A. A., Youssef, A. M. Synthesis and electrical conductivity evaluation of

novel hybrid poly (methyl methacrylate)/titanium dioxide nanowires, Synthetic

Metals, 2011, 161, 2063-2069

[202] Yu, D., An, J. H., Bae, J. Y., Lee, Y. E., Ahn, S. D., Kang, S., Suh, K. S.

Preparation and characterization of titanium dioxide core/polymer shell hybrid

composite particles prepared by emulsion polymerization, Journal of Applied

Polymer Science. 2004, 92, 2970–2975

[203] Chen, W., Liu, X., Liu, Y., Kim, H. I. Synthesis of microcapsules with

polystyrene/ZnO hybrid shell by Pickering emulsion polymerization, Colloid

Polymer Science. 2010, 288, 1393-1399

REFERENCES


[204] Tang, E., Liu, H., Sun, L., Zheng, E., Cheng, G. Fabrication of zinc

oxide/poly(styrene) grafted nanocomposite latex and its dispersion, European

Polymer Journal. 2007, 43, 4210-4218

[205] Liu, P. Facile preparation of monodispersed core/shell zinc oxide@ polystyrene

(ZnO@ PS) nanoparticles via soapless seeded microemulsion polymerization,

Colloid and Surfaces, Part A: Physicochemical Enginerring Aspects. 2006, 291, 155-

161

[206] Chen, J. H., Cheng, C.Y., Chiu, W. Y., Lee, C. F., Liang, N. Y. Synthesis of

ZnO/polystyrene composites particles by Pickering emulsion polymerization,

European Polymer Journal. 2008, 44, 3271-3279

[207] Tang, E., Cheng, G., Pang, X., Ma, X., Xing, F. Synthesis of nano-

ZnO/poly(methyl methacrylate) composite microsphere through emulsion

polymerization and its UV-shielding property, Colloid and Polymer Science. 2006,

284, 422-428,

[208] Zhang, J. J., Gao, G., Zhang, M., Zhang, D., Wang, C. L., Zhao, D. C., Liu, F. Q.

ZnO/PS core–shell hybrid microspheres prepared with miniemulsion polymerization,

Journal of Colloid and Interface Science. 2006, 301, 78-84

[209] Lu, H., Fei, B., Xin, J. H., Wang, R., Li, L. Fabrication of UV-blocking

nanohybrid coating via miniemulsion polymerization, Journal of Colloid and

Interface Science. 2006, 300, 111-116

[210] Munoz-Espi, R., Qi, Y., Lieberwirth, I., Gomez, C. M., Wegner, G. Surface-

functionalized latex particles as controlling agents for the mineralization of zinc oxide

in aqueous medium, Chemistry A European Journal. 2006, 12, 118–129.

[211] Schrade, A., Mikhalevich, V., Landfester, K., Ziene, U. Synthesis and

characterization of positively charged, alumina-coated silica/polystyrene hybrid

nanoparticles via pickering miniemulsion polymerization, Journal of Polymer

Science. Part A: Polymer Chemistry. 2011, 49, 4735-4746

[212] Zhang, H., Cooper, A. I. Emulsion-Templated Hierarchically Porous Silica Beads

Using Silica Nanoparticles as Building Blocks, Industrial and Engineering

Chemistry. Research. 2005, 44, 8707–8714

REFERENCES


[213] Crespy, D., Landfester, K. Synthesis of polyvinylpyrrolidone/silver nanoparticles

hybrid latex in non-aqueous miniemulsion at high temperature, Polymer. 2009, 50,

1616–1620

[214] Mahdavian, A. R., Sarrafi, T., Shabankareh, M. Nanocomposite particles with

core shell morphology III: Preparation and characterization of nano Al2O3-

poly(Styrene-methyl methacrylate) particles via miniemulsion polymerization,

Polymer Bulletin. 2009, 63, 329–340.

[215] Koh, H. D., Changez, M., Lee, J. P., Lee, J. S. Preparation of Ag-Embedded

Polystyrene Nanospheres and Nanocapsules by Miniemulsion Polymerization,

Macromolecular Rapid Communication. 2009, 30, 1583–1588

[216] Liu, Y., Liu, X., Wang, X., Yang, J., Yang, X. J., Lu, L. Gelatin-g-Poly(methyl

methacrylate)/Silver Nanoparticle Hybrid Films and the Evaluation of Their

Antibacterial Activity, Journal of Applied Polymer Science. 2010, 116, 2617–2625

[217] Cao, Z., Walter, C., Landfester, K., Wu, Z., Ziener, U. Synthesis of Silver/Poly(2-

hydroxyethyl methacrylate) Particles via a Combination of Inverse Miniemulsion and

Silver Ion Reduction in a “Nanoreactor”, Langmuir, 2011, 27, 9849–9859

[218] Chen, Q., Shen, X., Gao, H. One-step synthesis of silver-poly(4-vinylpyridine)

hybrid microgels by γ-irradiation and surfactant-free emulsion polymerization. The

photoluminescence characteristics, Colloid and Surfaces, Part A Physicochemical

Enginerring Aspects, 2006, 275, 45–49

[219] Crespy, D., Landfester, K. Synthesis of polyvinylpyrrolidone/silver nanoparticles

hybrid latex in non-aqueous miniemulsion at high temperature, Polymer. 2009, 50,

1616–1620

[220] Donescu, D., Nistor, C. L., Purcar, V., Petcu, C., Serban, S., Corobea, M. C.,

Ghiurea, M. Formation and dissolution of silver nanoparticles, Optoelectronics and

Advaced Materials Rapid communication. 2009, 3, 44 – 48

[221] Fuchs, A. V. , Will, G. D. Photo-initiated miniemulsion polymerization as a route

to the synthesis of gold nanoparticle encapsulated latexes, Polymer, 2010, 51, 2119-

2124

[222] Li , D., He, Q., Li, J. Smart core/shell nanocomposites: Intelligent polymers

modified gold nanoparticles, Advanced Colloid Interface Science. 2009, 149, 28–38

REFERENCES


[223] Norberg, N. S., Gamelin, D. R. Influence of surface modification on the

luminescence of colloidal ZnO nanocrystals, Journal of Physical Chemistry,Part B.

2005, 109, 20810–20816.

[224] Hung, C. and Whang, W. Effect of surface stabilization of nanoparticles on

luminescent charectristics in ZnO/poly(hydroxylethyl methacrylate) nanohybrid

films, Journal of Material Chemistry. 15, 2005, 267-274

[225] Xiong, H., Liu, D. , Xia, Y., Chen, J. Polyether grafted ZnO nanoparticles with

tunable and stable photoluminescence at room temperature, Chemistry of Materials.

2005, 17, 3062-3064

[226] Abdullah, M., Lenggoro, I. W., and Okuyama, K. In situ synthesis of polymer

nanocomposite electrolytes emitting a high luminescence with a tunable wavelength,

Journal of Physical Chemistry, Part B. 2003, 107, 1957-1961

[227] MunozEspi, R., Q, Y., lieberwirth, I., Gomez, C. M. and Wegner, G. Surface

functionalized latex particles as controlling agents for the mineralization of zinc oxide

in aqueous medium, Chemistry European Journal. 2006, 12, 118–129.

[228] Tang, E. & Dong, S. Preparation of styrene polymer/ZnO nanocomposite latex via

miniemulsion polymerization and its antibacterial property, Colloid and Polymer

Science. 2009, 287, 1025–1032

[229] Jun Zhang, J., Gao, G., Zhang, M., Zhang, D., Wang, C., Zhao, D., Liu, F.

ZnO/PS core–shell hybrid microspheres prepared with miniemulsion polymerization,

Journal of Colloid and Interface Science. 2006, 301, 78–84

[230] Beissenhirtz, M. K., Elnathan, R., Weizmann, Y., Willner, I. The Aggregation of

Au Nanoparticles by an Autonomous DNA Machine Detects Viruses, Small. 2007, 3,

375–379

[231] Ouyang, J. Y., Chu, C. W., Szmanda, C. R., Ma, L. P., Yang, Y. Programmable

polymer thin film and non-volatile memory device, Nature Materials. 2004, 3, 918–

922.

[232] Chen, W., Liu, X., Liu, Y., Kim, H. I. Synthesis of microcapsules with

polystyrene/ZnO hybrid shell by Pickering emulsion polymerization, Colloid

Polymer Science. 2010, 288, 1393-1399

REFERENCES


[233] Berkel, K. Y. V., Hawker, C. J. Tailored composite polymer–metal nanoparticles

by miniemulsion polymerization and thiol-ene functionalization, Journal of Polymer

Science, Part A Polymer Chemistry. 2010, 48,1594–1606

[234] Nabih, N., Landfester, K., Taden, A. Water-Based Inorganic/Polymer Hybrid

Particles Prepared Via a Multiple Miniemulsion Process, Journal of Polymer

Science, Part A Polymer chemistry. 2011, 49, 5019–5029

[235] May, C. A., “Epoxy Resin: Chemistry and Technology”, 2nd ed, Marcel Dekker,

Wiley–Interscience, New York, 1988

[236] Nakamura, Y., Tabata, H., Suzuki, H., Iko, K., Okubo, M. and Matsumoto, T.

Internal Stress of Epoxy Resin Modified with Acrylic Core-Shell Particles Prepared

by Seeded Emulsion Polymerization, Journal of Applied Polymer Science. 1986, 32,

4865-4871

[237] Ruckenstein, E., Li, H. Composites via heterogeneous crosslinking of

concentrated emulsions, Polymer. 1996, 37, 3373–3378.

[238] Aerts, A.M, Groenick, G., Zirkzee, H.F., Van Aert, H.A. and Geurts M.

Preparation of epoxy-functionalized Methylmethacrylate–butadiene–styrene core-

shell particles and investigation of their dispersion in polyamide-6, Polymer, 1997,

38, 1003–1008.

[239] Wet-Roos, D. D., Knoetze, J. H., Cooray, B., Sanderson, R. D. Emulsion

polymerization of epoxy-acrylate emulsion stabilized with polyacrylate. Influence of

salt, initiator, neutralizing amine, and stirring speed, Journal of Applied Polymer

Science. 1999, 71, 1347–60.

[240] Wet-Roos, D. D., Knoetze, J. H., Cooray, B., Sanderson, R. D. Emulsion

polymerization of an epoxy-acrylate emulsion stabilized with polyacrylate. II. Using

the results of statistically designed experiments to deduce a possible polymerization

mechanis, Journal of Applied Polymer Science. 2000, 76, 368–381

[241] Goto, T., Ohnishi, K., Ogura, H., Kage, H., Matsuno, Y. Preparation of Epoxy

Resin/Acrylic Composite Latexes by Miniemulsion Polymerization Method, H.

Kawahara, Journal of Applied Polymer Science. 2001, 81, 128–133

[242] Pan, G., Wu, L., Zhang, Z., Li, D. Synthesis and characterization of epoxy-

acrylate composite latex, Journal of Applied Polymer Science, 2002, 83, 1736–1743.

REFERENCES


[243] Chengyin, M. A., Cuiyan, D., Wenji, Z. Waterborne Epoxy Resin Modified by

AMPS, Journal of Wuh. University of Technology Material Science. 22, 2007, 649-

652

[244] Zafar, S., Riaz, U., Ahmad, S. Water-Borne Melamine–Formaldehyde-Cured

Epoxy–Acrylate Corrosion Resistant Coatings, Journal of Applied Polymer Science.

2008, 107, 215–222

[245] Wicks, Z. , Jones, F., Pappas, S. P. “Organic Coating Science and Technolog”,

John Wiley and Sons, New York, 1999, Vol. 2, p. 630.

[246] Karandikar, V. C. Hybrid Polymers for High Performance Coatings, Paintindia

2006, 2, 55–74

[247] Wang, S. T., Schork, F. J., Poehlein, G. W., Gooch, J. W. Emulsion and

Miniemulsion Copolymerization of Acrylic Monomers in the Presence of Alkyd

Resin, Journal of Applied Polymer Science. 1996, 12, 2069–2076

[248] Nabuurs, T., Baijards, R. A., German, A. L. Alkyd–Acrylic Hybrid Systems for

Use as Binders in Waterborne Paints, Progress in Organic Coatings. 1996, 1–4,

163–172

[249] Wu, X. Q., Schork, F. J., Gooch, J. W. Hybrid Miniemulsion Polymerization of

Acrylic/Alkyd Systems and Characterization of the Resulting Polymers, Polymer


[250] Shoaf, G. L., Stockl, R. R. Alkyd/Acrylic Hybrid Latexes with Enhanced

Oxidative Curing, Polymer Reaction Enginerring. 2003, 3, 319–334

[251] Tsavalas, J. G., Luo, Y., Schork, F. J. Grafting Mechanisms in Hybrid

Miniemulsion Polymerization, Journal of Applied Polymer Science. 2003, 11, 1825–

1836

[252] Wang, C., Lin, G., Pae, J., Jones, F. N., Ye, H., Shen, W. Novel Synthesis of

Carboxy-Functional Soybean Alkyd Resins for Water-Reducible Coating, Journal

Coating Technology. 2000, 904, 55–61

[253] Wang, S. T., Schork, F. J., Poehlein, G. W., Gooch, J. W. Emulsion and

Miniemulsion Copolymerization of Acrylic Monomers in the Presence of Alkyd

Resin, Journal of Applied Polymer Science. 1996, 12, 2069–2076

REFERENCES


[254] Minari, R. J., Goikoetxea, M., Beristain, I., Paulis, M., Barandiaran, M. J., Asua,

J. M. Molecular Characterization of Alkyd/Acrylic Latexes Prepared by

Miniemulsion Polymerization, Journal of Applied Polymer Science. 2009, 114,

3143–3151

[255] Saravari, O., Phapant, P., Pimpan, V. Synthesis of Water-Reducible Acrylic–

Alkyd Resins Based on Modified Palm Oil, Journal of Applied Polymer Science.

2005, 96, 1170–1175

[256] Heiskanen, N., Jamsa, S., Paajanen, L., Koskimies, S. Synthesis and performance

of alkyd–acrylic hybrid binders, Progress in Organic Coatings. 2010, 67, 329–338

[257] Sharma, M. K. “Surface Phenomena and Latexes in Waterborne Coatings and

Printing Technology”; Plenum: New York, 1995; pp 41–57.

[258] Tsavalas, J., Gooch, J., Schork, F. Water-based crosslinkable coatings via mini-

emulsion polymerization of acrylic monomers in the presence of unsaturated

polyester resin, Journal of Applied Polymer Science. 2000, 75, 916–27

[259] Jahanzad, F., Karatas, E., Saha, B., Brooks, B. W. Hybrid polymer particles by

miniemulsion polymerization, Colloid and Surfaces A Physicochemical Enginerring.

Aspects. 2007, 302, 424–429

[260] Barrere, M., Landfester, K. Polyester synthesis in aqueous mini-emulsion.

Polymer. 2003, 44, 2833–2841

[261] Hegedus, C. R., Kloiber, K. A. Aqueous Acrylic-Polyurethane Hybrid

Dispersions and their Use in Industrial Coatings, Journal of Coating Technology.

1996, 68, 39-48

[262] Aznar, A. C., Pardini, O. R., Amalvy, J. I. Glossy topcoat exterior paint

formulations using water-based polyurethane/acrylic hybrid binders, Progress in

Organic Coatings. 2006, 55, 43–49

[263] Tennebroek; R., Geurts; J., Overbeek; A., Harmsen, A. Self-crosslinkable

urethanes and urethane/acrylics, European Coating Journal. 1997, 11, 1016-1021

[264] Galgoci, E. C., Hegedus, C. R., Walker, F. H., Tempel, D. J., Pepe, F. R.,

Yoxheimer, K. A., and Boyce, A. S. Solvent-free urethane-acrylic hybrid polymers

for coatings, Journal of Coating Technology. 2005, 2, 28-36

REFERENCES


[265] Kukanja, D., Golob, J., Zupancic-Valant, A., Krajnc, M. The Structure and

Properties of Acrylic-Polyurethane Hybrid Emulsions and Comparison with Physical

Blends, Journal of Applied Polymer Science. 2000, 78, 67–80

[266] Lai, J., Ling, H., Chen, G., Yeh, J., Chen, K. Polymer Hybrids from Self-

Emulsified PU Anionomer and Water-Reducible Acrylate Copolymer via a

Postcuring Reaction, Journal of Applied Polymer Science. 90, 2003, 3578–3587

[267] Athawale, V. D., Kulkarni, M. A. Preparation and properties of urethane/acrylate

composite by emulsion polymerization technique, Progress in Organic Coatings.

2009, 65, 392–400

[268] Wanga, C., Chua, F., Graillatb, C., Guyotb, A., Gauthierc, C. Hybrid polymer

latexes—acrylics-polyurethane: II. Mechanical properties, Polymers for Advanced

Technology. 2005, 16, 139–145

[269] Wanga, C., Chua, F., Graillatb, C., Guyotb, A., Gauthierc, C., Chapel, J.P.

Hybrid polymer latexes: acrylics–polyurethane from miniemulsion polymerization:

properties of hybrid latexes versus blends, Polymer. 2005, 46, 1113–1124

[270] Lee, J. M., Kim, J. S., Cheong W., Kim, J. H. Synthesis, characterization, and

mechanical property of poly(urethane-glycidyl methacrylate-methyl methacrylate)

hybrid polymers, Journal of Applied Polymer Science. 2011, 121, 3111-3121

[271] Peruzzoa, P. J., Anbindera, P. S., Pardinia, O. R., Vegac, J., Costad, C. A.,

Galembeck, F., Amalvya, J. I. Waterborne polyurethane/acrylate: Comparison of

hybrid and blend systems, Progress in Organic Coating. 2011, 72, 429– 437

[272] Brown, R. A., Coogan, R. G., Fortier, D. G., Reeve, M. S., Rega, J. D.

Comparing and contrasting the properties of urethane/acrylic hybrids with those of

corresponding blends of urethane dispersions and acrylic emulsions, Progress in

Organic Coating. 2005, 52, 73–84

[273] Xin, H., Shen, Y., Li, X. Novel cationic polyurethane-fluorinated acrylic hybrid

latexes: Synthesis, characterization and properties, Colloid and Surfaces, Part A

Physicochemical Enginerring Aspects. 2011, 384, 205– 211

[274] Lee, J. M., Kim, J. S., Cheong W., Kim, J. H. Synthesis, characterization, and

mechanical property of poly(urethane-glycidyl methacrylate-methyl methacrylate)

hybrid polymers, Journal of Applied Polymer Science. 2011, 121, 3111-3121

REFERENCES


[275] Shi, Y.C., Wu, Y.S., Zhu, Z.Q. Modification of aqueous acrylic–polyurethane

via epoxy resin postcrosslinking, Journal of Applied Polymer Science. 2003, 88,

470–475.

[276] Wang, C., Chu, F., Guyot, A., Gauthier, C., Boisson, F. Hybrid acrylic–

polyurethane latexes: Emulsion versus miniemulsion polymerization, Journal of

Applied Polymer Science. 2006, 101, 3927–3941

[277] Athawale, V. D., Kulkarni, M. A. Polyester polyols for waterborne

polyurethanes and hybrid dispersions, Progress in Organic Coating. 2010, 67, 44–54

[278] Chen, L., Chen, S. Latex interpenetrating networks based on polyurethane,

polyacrylate and epoxy resin, Progress in Organic Coating. 2004, 49, 252–258

[279] Zhu, X., Jiang, X., Zhang, Z., Kong, X. Z. Influence of ingredients in water-

based polyurethane–acrylic hybrid latexes on latex properties, Progress in Organic

Coating. 2008, 62, 251–257

[280] Chai, S. L., Jin, M. M. Morphology and Particle Size of Nanograde

Polyurethane/Polyacrylate Hybrid Emulsions , Journal of Applied Polymer Science.

2009, 114, 2030–2035

[281] Hasegawa, Y., Yoshino, F. Urethane/acrylic composite polymer emulsions,

Progress in Organic Coating. 1996, 29, 175-182.

[282] Kim; J. Y., Suh, K. D. Prepeartion of PEG modified urethane acrylate emulsion

and its emulsion polymerization, Colloid Polymer Science 1996, 274, 920-927.

[283] Kim, B. K., Lee, C. J. Modification of waterborne polyurethanes by acrylate

incorporations, Journal of Applied Polymer Science. 1995, 58, 1117-1124.

[284] Otts; D. B., Dutta; S., Zhang; P., Smith; O. W., Thames; S. F., Urban, M. W.,

Synthesis and phase separation during film formation of novel methyl methacrylate/n-

butyl acrylate/methacrylic acid (MMA/BA/MAA) hybrid urethane/acrylate colloidal

dispersions. Polymer. 2004, 45, 6235-6243.

[285] Kukanja; D., Golob; J., Krajnc, M. J. Kinetic investigation of acrylic-

polyurethane composite latex, Journal of Applied Polymer Science. 2002, 84, 2639-

2649.

[286] Brown, R. A., Coogan, R. G., Fortier, D. G., Reeve, M. S., Rega, J. D.

Comparing and contrasting the properties of urethane/acrylic hybrids with those of

REFERENCES


corresponding blends of urethane dispersions and acrylic emulsions, Progress in

Organic Coating. 2005, 52, 73–84

[287] Dolores K., Janvit G., Matjaz K. Investigation of acrylic polyurethane composite

latex, Journal of Applied Polymer Science. 2001, 84, 2639-2649.

[288] Pardini, O. R., Amalvy, J. I. FTIR, 1H-NMR Spectra, and Thermal

Characterization of Water-Based Polyurethane/Acrylic Hybrids, Journal of Applied

Polymer Science. 2008, 107, 1207–1214

[289] Hirose; M., Kadowaki; F., Zhou, J. The structure and properties of core-shell type

acrylic polyurethane hybrid aqueous emulsions, Progress in Organic Coating. 1997,

31, 157-169

[290] Adler, H., Jahny, K., Vogt-Birnbrich, B. Polyurethane macromers—new

building blocks for acrylic hybrid emulsions with outstanding performance, Progress

in Organic Coating. 2001, 43, 251–257

[291] Hirose, M., Zhou, J., Nagai, K. The structure and properties of acrylic-

polyurethane hybrid emulsions, Progress in Organic Coating. 2000, 38, 27–34

[292] Peruzzo, P. J., Anbinder, P. S., Pardini, O. R., Costa, C. A., Leite, C. A.,

Galembeck, F., Amalv, J. I. Polyurethane/Acrylate Hybrids: Effects of the Acrylic

Content and Thermal Treatment on the Polymer Properties, Journal of Applied

Polymer Science. 2010, 116, 2694–2705

[293] Hegedus, C. R., Kloiber, K. A. Acrylic-polyurethane aqueous dispersions:

structure and properties in industrial coatings;1994, 21st Waterborne High-Solids

and Powder Coatings Symposium, New Orleans, February 9–11.

[294] Hegedus, C. R., Kloiber, K. A. Aqueous Acrylic-Polyurethane Hybrid

Dispersions and their Use in Industrial Coatings, Journal of Coating Technology.

1996, 68, 39-48

[295] Chen, G., Chen, K. K. Hybridization of Aqueous-Based Polyurethane with

Glycidyl Methacrylate Copolymer, Journal of Applied Polymer Science. 1999, 71,

903–913

[296] Parmar, R., Patel, K., Parmar, J. High performance waterborne coatings based on

epoxy-acrylic-graft-copolymer-modified polyurethane dispersions, Polymer

International, 2005, 54, 488-494

REFERENCES


[297] Yongshang L., Xia, Y., Richard, C. L., Surfactant-free core–shell hybrid latexes

from soybean oil-based waterborne polyurethanes and poly(styrene-butyl acrylate),

Progress in Organic Coating. 2011, 71, 336–342

[298] Lu, Y., Larock, R. C. Synthesis and Properties of Grafted Latices from a

Soybean Oil-Based Waterborne Polyurethane and Acrylics, Journal of Applied

Polymer Science. 2011, 119, 3305–3314

[299] Gooch, J. W., Dong, H., Schork, F. J. Waterborne Oil-Modified Polyurethane

Coatings via Hybrid Miniemulsion Polymerization, Journal of Applied Polymer

Science. 2000, 76, 105–114

[300] Lu, Y., Larock, R. C. Synthesis and Properties of Grafted Latices from a

Soybean Oil-Based Waterborne Polyurethane and Acrylics, Journal of Applied

Polymer Science. 2011, 119, 3305–3314

[301] Ebenik, U. S., Krajnc, M. Properties of Acrylic–Polyurethane Hybrid Emulsions

Synthesized by the Semibatch Emulsion Copolymerization of Acrylates Using

Different Polyurethane Particles, Journal of Polymer Science, Part A Polymer

Chemistry. 2005, 43, 4050–4069

[302] Jiang, X., Xiang-Zheng , K., Zhu, X., Zhang, Z., Zhi-Guo, Z. Calculation of

Grafting and Property Characterization in Polyurethane-Acrylic Hybrid Materials

Prepared by Emulsion Process, Macromolecular Chemistry Physics. 2010, 211,

2201–2210

[303] Li, M., Daniels, E.S., Dimonie, V., Sudol, E.D., El-Aasser, M.S. Preparation of

polyurethane/acrylic hybrid nanoparticles via a miniemulsion polymerization process,

Macromolecules. 2005, 38, 4183–4192

[304] Udagama, R., Degrandi-Contraires, E., Creton, C., Graillat, C., Bourgeat-Lami, E.

Synthesis of Acrylic−Polyurethane Hybrid Latexes by Miniemulsion Polymerization

and Their Pressure-Sensitive Adhesive Applications, Macromolecules. 2011, 44,

2632–2642

[305] Degrandi-Contraires, E., Udagama, R., Bourgeat-Lami, E., McKenna, T.,

Ouzineb, K., Creton, C. Mechanical Properties of Adhesive Films Obtained from

PU−Acrylic Hybrid Particles, Macromolecules. 2011, 44, 2643–2652

REFERENCES


[306] Lopez, A., Degrandi-Contraires, E., Canetta, E., Creton, C., Keddie, J. L., Asua,

J. M. Waterborne Polyurethane−Acrylic Hybrid Nanoparticles by Miniemulsion

Polymerization: Applications in Pressure-Sensitive Adhesives, Langmuir, 2011, 27,

878–3888

[307] Wada, T., Inui, K., Uragami, T. Properties of Organic–Inorganic Composite

Materials Prepared from Acrylic Resin Emulsions and Colloidal Silicas, Journal of

Applied Polymer Science.2006, 101, 2051–2056

[308] Wada, T., Matoba, Y., and Uragami, T., "Preparation of Chitosan-Hybridized

Acrylic Resin in Emulsion Polymerization and Their Application to an Interior

Finishing Coating," 6th Asia-Pacific Chitin Chitosan Symposium (2004).

[309] Wada, T., Uragami, T. Preparation and characterization of hybrid chitosan/acrylic

resin emulsions and their films, Macromolecular Material Enginerring. 2006, 291,

809-819

[310] Wada, T., Uragami, T., Matoba, Y. Chitosan hybridized acrylic resins prepared

in emulsion polymerizations and their application as interior finishing coatings,

Journal of Coatings Technology and Research, 2005, 2, 577-592

[311] Wada, T., Uragami, T., Matoba, Y., Inui, K., and Kouno, K., "Application to an

Interior Finishing Coating of Chitosan-Hybridized Acrylic Resin Prepared in an

Emulsion Polymerization," Chitin and Chitosan Research, Vol. 10, No. 2, 118-119

(2004).

[312] Wada, T., Uragami, T., Matoba, Y., Inui, K., Imajyo, H., and Irie., Y., "Studies

on Preparation of Chitosan-Complex Acrylic Resin in an Emulsion Polymerization

System and Application to Indoor Environment Paint," Japan Society for Finishing

Technology, 11-14 (2003).

[313] Wada, T., Yasuda, M., Yako, H., Matoba, Y., Uragami, T. Preparation and

Characterization of Hybrid Quaternized Chitosan/Acrylic Resin Emulsions and their

Films, Macromolecular Material Enginerring. 2007, 292, 147–154

[314] Chandrasekaran, S., Ramanathan, S., Basak, T. Microwave Material

Processing—A Review, American Institute of Chemical Engineers Journal, 2012,

58, 330–363

REFERENCES


[315] Hoogenboom R., Schubert U. S. Microwave-assist-ed polymer synthesis: recent

developments in a rapidly expanding field of research, Macromolecular Rapid

Communication, 2007, 28, 368-386

[316] Wiesbrock, F., Hoogenboom, R., Schubert, U. S. Microwave-Assisted Polymer

Synthesis: State-of-the-Art and Future Perspectives. Macromolecular Rapid

Communications. 2004, 25, 1739-1764

[317] Ebner, C., Bodner, T., Stelzer, F., Wiesbrock, F. One Decade of Microwave-

Assisted Polymerizations: Quo vadis? Macromolecular Rapid Communication. 2011,

32, 254–288

[318] Jian-Shian, L., Ming-Hua, C., Chen-Ming, C., Fuh-Shyang, J., Lung-Chang, L.

Microwave-assisted synthesis of organic/ inorganic hybrid nanocomposites and their

encapsulating applications for photoelectric devices, Journal of physical Organic

Chemistry. 2011, 24, 193–202

[319] Shi, S., Jiann-Yang, H. Microwave-assisted wet chemical synthesis: advantages,

significance, and steps to industrialization, Journal of Mineral Material

Characterization and Engineering. 2003, 2, 101-110

[320] Leonellia, C., Mason, T. J. Microwave and ultrasonic processing: Now a realistic

option for industry, Chemical Engineering and Processing. 2010, 49, 885–900

[321] Kidwai, M.; Thakur, R. Green chemistry in sustainable national development,

Journal Indian Chemical Society, 2005, 82, 1103-1111

[322] Gerlitz, M.; Supper, E. New waterborne polyvinyl butyral dispersions, Surface

Coating International, Part A10, 2001, 84, 389-392

[323] Wang, N., Lina, Z., Yongshang, L., Yuming, D. Properties of crosslinked casein

/waterborne polyurethane composites, Journal of Applied Polymer Science, 2004, 9,

332-338

[324] Clayton A. “Epoxy Resin: Chemistry and Technology”, 2nd Edition, Marcel

Dekker, Wiley–Interscience, New York, 1988

[325] Lesko, P. M.; Sperry, P. R. “Emulsion Polymerisation and Emulsion Polymers”;

Lovell, P. A., El-Aasser, M. S., Eds.; Wiley: New York, 1997, pp 619

[326] Guyot, A., Landfester, K., Joseph, F., Wang, C. Hybrid polymer latexes,

Progress in Polymer Science, 2007, 32, 1439–1461

REFERENCES


[327] Patil, R. N., Sharma, B. V., Mahanwar, P. A., Joseph, S. Epoxy resin and their

hybrid for coating Application: A review, Paint India, 2010, 60, 59-69

[328] Landfester, K, Tiarks, F., Hentze, H., Antonietti, M. Polyaddition in mini-

emulsions: a new route to polymer dispersions, Macromolecular Chemistry and

Physics; 2000, 201, 1–5

[329] Aerts, A.M, Groenick, G., Zirkzee, H.F., Van Aert, H.A. and Geurts M.

Preparation of epoxy-functionalized Methylmethacrylate–butadiene–styrene core-

shell particles and investigation of their dispersion in polyamide-6, Polymer, 1997,

38, 1003–1008.

[330] Pan, G., Wu, L., Zhang, Z., Li, D. Synthesis and characterization of epoxy-

acrylate composite latex, Journal of Applied Polymer Science, 2002, 83, 1736–1743.


Acrylic/Alkyd Systems and Characterization of the Resulting Polymers, Journal of

Polymer Science, Part A : Polymer Chemistry. 1999, 22, 4159–4168


Acrylic/Alkyd Systems and Characterization of the Resulting Polymers, Polymer


[333] Fatemeh, J., Erhan, K., Basu, S. And Brian, W. Hybrid polymer particles by

miniemulsion polymerization, Colloids and Surfaces A: Physicochem. Eng. Aspects,

2007, 302, 424–429

[334] Wang, C., Chu, F., Graillat, C., Guyot, A., Gauthier, C., Chapel, J.P. Hybrid

polymer latexes: acrylics–polyurethane from miniemulsion polymerization: properties

of hybrid latexes versus blends, Polymer, 2005, 46, 1113–1124

[335] Shigenori, E., Takashi, S.; Miyuki, H. Water dispersible graft copolymer mixtures

prepared by electron irradiation, II. Dispersion Behaviour, Journal of Applied

Polymer Science, 1987, 34,. 2177-2186

[336] Brandrup, J. “Polymer Handbook”, 2nd Ed, Immergut, E. H., Eds.; Wiley–

Interscience, New York., 1975

[337] Steward, P. A., Hearn, J., Wilkinson, M.C. An overview of polymer latex film

formation and properties, Advance Colloids Interface Science, 2000, 86, 195-267

REFERENCES


[338] Mayo, F. R.; Lewis, F. M.; Walling, C. Copolymerization VII: The relation

between structure and reactivity of monomers in copolymerization, Journal of

American Chemical Society, 1948, 70, 1529-1533

[339] Tedder, J. M. Which Factors Determine the Reactivity and Regioselectivity of

Free Radical Substitution and Addition Reactions? Angew Chemical International,

1982, 21, 401-410

[340] Huang, N. J.; Sundberg, D. C. Fundamental Studies of Grafting Reactions in Free

Radical Copolymerisation. 1. A Detailed kinetic Model for Solution Polymerisation.,

Journal of Applied Science Part A Polymer Chemistry, 1995, 33, 2533-2550

[341] Gilbert, R. G. Emulsion Polymerization: A Mechanistic Approach; Academic

Press: London, 1995

[342] Bevington, J. C.; Bradbury, J. H.; Burnett, G. M. A new method for the

determination of the rate of initiation in radical polymerizations, Journal of Polymer

Science, 1954, 12, 469-480

[343] Ma, G. H.; Nagai, M.; Omi, S. Study on preparation of monodispersed

poly(styrene-co-N-dimethylaminoethylmethacrylate) composite microspheres by SPG

(Shirasu porous glass) emulsification technique, Journal of applied polymer science,

2001, 79, 2408-2424

[344] Odian, G. “Principles of Polymerization”; McGraw-Hill: New York, 1970

[345] Nicholas, A. M. and Arnold, D. R. A kinetic study of the reactions of OH radicals

with fluoroethanes. Estimates of C—H bond strengths in fluoroalkanes, Canadian.

Journal of Chemistry, 1983, 61, 861-865

[346] Korzekwa K. R., Jones J. P., and Gillette J. R. Theoretical studies on cytochrome

P-450 mediated hydroxylation: A predictive model for hydrogen atom abstractions.

Journal of American Chemical Society. 1990, 112, 7042-7046

[347] Swain, G. C. and Lupton, E. C. Journal of American Chemical Society, 1908,

Vol. 90, pp.4328

[348] Allingner N.L., Conformational analysis. 130. MM2. A hydrocarbon force field

utilizing V and V torsional terms, Journal of American Chemical Society, 1977, 99,

8127-8134

REFERENCES


[349] Sauers, R. R. and Krogh-Jespersen, K. Analysis of Norrish type II reactions by

molecular mechanics methodology. Tetrahedron Letter, 1989, 30, 527-530

[350] Asua, J. M. “Polymer Reaction Engineering”; Black-well: Oxford, Chapter 6,

2007; pp 233–272.

[351] Lovell, P. A.; El-Aasser, M. S. “Emulsion Polymerization and Emulsion

Polymers”; Wiley: Chichester, 1998

[352] Mark D., Roy A. Epoxy resin curing agents, U. S. Patent 4,316,003, February 16,

1982

[353] Shih, Y. Epoxy modified core shell lattice s, U. S. 5,981,627, November 9, 1999.

[354] De Wet-Roos, D.; Knoetze, J. H.; Cooray, B.; Sanderson, R. D. Emulsion

polymerization of an epoxy-acrylate emulsion stabilized with polyacrylate. i.

influence of salt, initiator, neutralizing amine, and stirring speed, Journal of Applied

Polymer Science, 1999, 71, 1347-1360.

[355] Hideaki K., Tokio G., Kiyoshi O., Hironao O., Hiroyuki K.,Yoshizo M.

Preparation of epoxy resin/acrylic composite latexes by miniemulsion polymerization

method, Journal of Applied Polymer Science, 2001, 81, 128–133

[356] James E.; Vincent T. Modified epoxy resin processes for making and using same

and substrates coated therewith, U. S. 4,212,781, April 18, 1980.

[357] Egusa, S.; Sasaki, T.; Hagiwara, M. Water-dispersible graft copolymer mixtures

prepared by electron irradiation. I. Polymerization behavior. Journal of Applied

Polymer Science, 1987, 34, 2163.

[358] Egusa, S.; Sasaki, T.; Hagiwara, M. Water-dispersible graft copolymer mixtures

prepared by electron irradiation. II. Dispersion behavior, Journal of Applied Polymer

Science, 1987, 34, 2177-2186

[359] Arzamendi, G.; Leiza, J. R. Modeling MWD and gel formation in the emulsion

polymerization of acrylate monomers: A Monte-Carlo approach, Industrial

engineering chemistry research, 2008, 47, 5934–5947

[360] Kohut, N.; Pirri, R. A.; Asua, J. M.; Leiza, J. R. Effect of Reaction Temperature

on the Gel Content of Acrylic Latexes, Macromolecular reaction engineering, 2009,

3, 11–15

REFERENCES


[361] Gonzalez, I.; Leiza, J. R.; Asua, J. M. Exploring the limits of branching and gel

content in the emulsion polymerization of n-BA , Macromolecules, 2006, 39, 5015–

5020.

[362] Unzue, M. J.; Urretabizkaia, A.; Asua, J. M. Maximizing production rate and

scrub resistance of vinyl acetate–VeoVa 10 latexes, Journal of Applied Polymer

Science, 2000, 78, 475–485

[363] Finch, C. A.; Warson, H. Applications of Synthetic Resin Latices, John Wiley &

Sons: New York, 2001

[364] Potter, W.G. Epoxide Resins, Springer Verlag Inc., New York, 1970

[365] Gafarogullari, M. G. Highly branched and tartaric acid based waterborne resins,

Journal of Applied Polymer Science, 2001, 80, 604–612,

[366] Labana, S. S., Chang, Y. F. Free radical initiators as catalysts for aromatic amine

epoxy reaction, Journal of Polymer Science, Part A-1: Polymer Chemistry, 1972, 10,

1861-1866

[367] Ingberman, A. K., Walton, R. K. Low toxicity aliphatic amines as crosslinking

agents for polyepoxy resin, Journal of Polymer Science, 1958, 28, 468-472

[368] Harrod, J. F. Reactions of primary amines with epoxides, Journal of Applied

Polymer Science, 1962, 6, 863-864

[369] Isaacs, N. S., Parker, R. E. The mechanism of epoxide reactions. Part II. The

reactions of 1,2-epoxyethylbenzene, 1,2-epoxy-3-phenylpropane, and 1,2-epoxy-3-

phenoxypropane with benzylamine, Journal of Chemical Society, 1960, 3497-3504.

[370] Harrod, J. F. Hydrogen bonding in amine epoxide adduct, Journal Polymer

Science Part A. General Papers, 1963, 1, 385-391

[371] Zhang, R.; Hu, Y.; Xu, J.; Fan, W.; Chen, Z. Flammability and thermal stability

studies of styrene-butyl acrylate copolymer=graphite oxide nanocomposite. Polymer

Degradation and Stability. 2004, 85, 583–588,

[372] Essawy, H.; Badran, A.; Youssef, A.; El-Hakim, A.E.A. Synthesis of

poly(methylmetacrylate)=montmorillonite nanocomposites via in situ intercalative

suspension and emulsion polymerization. Polymer Bulletin. 2004, 53, 9–17

REFERENCES


[373] Mohammad, M.; Nikje, A.; Tehrani, Z.M. Synthesis and characterization of

waterborne polyurethane-chitosan nanocomposites. Polymer Plastic Technology

Engineering. 2010, 49, 812–817

[374] Essawy, H. A.; Youssef, A. M.; Abd-El-Hakim, A. A.; Rabie, A. M. Exfoliation

of kaolinite nanolayers in poly(methylmetacrylate) using redox initiator system.

Polymer Plastic Technology Engineering. 2009, 48, 177–184.,

[375] Bhanvase, B. A.; Gumfekar, S. P.; Sonawane, S. H. Water-based PMMA-nano-

CaCO3nanocomposites by in situ polymerization technique: Synthesis,

characterization and mechanical properties. Polymer Plastic Technology

Engineering. 2009, 48, 939–944

[376] Qian, X. J., Liu, X. H., Lu, L. D., Chen, W. J., Wang, X. Surface modification of

the nano-SiO2 with 1-octyl alcohol. Chinese Journal of Inorganic Chemistry. 2004,

20, 335-338

[377] Fuji, M., Takei, T., Watanabe, T., Chikazawa, M. Wettability of fine silica

powder surfaces modified with several normal alcohols, Colloid Surface A, 1999,

154, 13-24.

[378] Zhang, L., Zhang, D. F. Study on the surface modification and characterization of

nano-SiO2, Russian Journal of Inorganic Chemistry, 2005, 50, 925-930

[379] Gao, J. C., Zou, J., Tan, X. W., Wang, Y. Characteristics and properties of surface

coated nano-TiO2, Transactions of Nonferrous Metals Society of China, 2006, 16,

1252-1258

[380] Li, Y. P., Wang, Y. Q., He, W. W., Chen, Z. Q., Zhang, R. Y., Huang, L.

Preparation and characterization of nano-SiO2/acrylic resin composite latex, Acta

Polymerica Sinica, 2006, 953-958.

[381] Lee, Y. L., Du, Z. C., Lin, W. X., Yang, Y. M. Monolayer behavior of silica

particles at air/water interface: a comparison between chemical and physical

modifications of surface, Journal of Colloid Interface Science, 2006, 296, 233-241.

[382] Bauer, F., Sauerland, V., Glasel, H. J., Ernst, H., Findeisen, M., Hartmann, E.,

Langguth, H., Marquardt, B., Mehnert, R. Preparation of scratch and abrasion

resistant polymeric nanocomposites by monomer grafting onto nanoparticles, 3-effect

REFERENCES


of filler particles and grafting agents, Macromolecular Materials and Engineering,

2002, 287, 546-552.

[383] Yao, L., Yang, T. L., Cheng, S. Y. Study of nanosilica/ fluorinated acrylate

copolymer hybrid emulsion and the polymerization kinetics, Acta Polymerica Sinica,

2008, 221-230.

[384] Yoshinaga, K. Functionalization of inorganic colloidal particles by polymer

modification, Bulletin of the Chemical Society of Japan, 2002, 75, 2349-2358

[385] Zhao, H., Sun, R. M., Luo, Y. J., Li, J. A novel method of hyperbranched poly

(amide-ester) modifying nano-SiO2 and study of mechanical properties of PVC/Nano-

SiO2 composites, Polymer Composite, 2008, 29,1014–1019.

[386] Wang, H. L., Shi, T. J., Zhai, L. F. Preparation of core-shell poly(acrylic

acid)/polystyrene/SiO2 hybrid microspheres, Journal of Applied Polymer Science,

2006, 102, 1729-1733.

[387] Zhang, J. M., Gao, J. G., Sun, X. G., Peng, Z., Diao, J. Z. Preparation and

characterization of TiO2/poly(St-co-MAA) core/shell composite particles, Iranian

Polymer Journal, 2007, 16, 39-46

[388] Kim, K. J., White, J. L. Silica surface modification using different aliphatic chain

length silane coupling agents and their effects on silica agglom-erate size and

processability, Composite Interfaces, 2002, 9, 541-556

[389] Zhang, S. W., Zhou, S. X., Weng, Y. M. and Wu, L. M. Synthesis of

SiO2/Polystyrene Nanocomposite Particles via Miniemulsion Polymerization,

Langmuir, 2005, 21, 2124–2128

[390] Mizutani, T., Arai, K., Miyamoto, M., Kimura, Y. Preparation of spherical

nanocomposites consist-ing of silica core and polyacrylate shell by emul-sion

polymerization, Journal of Applied Polymer Science, 2006, 99, 659-669.

[391] Zhang, K., Zheng, L. L., Zhang, X. H., Chen, X., Yang, B. Silica-PMMA core-

shell and hollow nanospheres, Colloid Surface A, 2006, 277, 145-150.

[392] Mahdavian, A. R., Ashjari, M., Makoo, A. B. Preparation of poly (styrene-methyl

methacry-late)/SiO2 composite nanoparticles via emulsion polymerization. An

investigation into the compat-iblization, European Polymer Journal, 2007, 43, 336-

344.

REFERENCES

Synthesis of Hybrid Epoxy Resin Emulsions for Industrial Coating Applications 2

[393] Wang, Y. Q., Li, Y. P., Zhang, R. Y., Huang, L., He, W. W. Synthesis and

characterization of nanosilica/polyacrylate composite latex, Polymer Composites,

2006, 27, 282-288.

[394] Richard, H., Ulrich, S. S. Microwave-Assisted Polymer Synthesis: Recent

Developments in a Rapidly Expanding Field of Research, Macromolacular Rapid

Communication, 2007, 28, 368–386

[395] Frank, W., Richard, H., Ulrich, S. S. Microwave-Assisted Polymer Synthesis:

State-of-the-Art and Future Perspectives, Macromolacular Rapid Communication,

2004, 25, 1739–1764

[396] Prevot, A. B., Gulmini, M., Zelano, V., Pramauro, E. Microwave-assisted

extraction of polycyclic aromatic hydrocarbons from marine sediments using

nonionic surfactant solutions. Analatical Chemistry. 2001, 73, 3790-3795

[397] Brown, S. L., Rayner, C. M., Perrier, S. Microwave-Accelerated RAFT

Polymerization of Polar Monomers. Macromolecular Rapid Communications. 2007,

28, 478

[398] Bezdushna, E., Ritter, H. Microwave Accelerated Synthesis of N-

Phenylmaleimide in a Single Step and Polymerization in Bulk. Macromolecular

Rapid Communications, 2005, 26,1087.




[400] Hoogenboom R., Schubert U. S. Microwave-assist-ed polymer synthesis: recent

developments in a rapidly expanding field of research, Macromolecular Rapid

Communication, 2007, 28, 368-386

[401] Bogdal, D., Penczek, P., Pielichowski, J., Prociak, A. Microwave Assisted

Synthesis, Crosslinking, and Processing of Polymeric Materials. Advances in

Polymer Science. 2003, 163, 193

[402] Kappe, O. Controlled Microwave Heating in Modern Organic Synthesis.

Angewandte Chemie International Edition. 2004, 43, 6250

REFERENCES


[403] Hoz, A. d. l., Diaz-Ortiz, A., Moreno, A. Microwaves in organic synthesis.

Thermal and non-thermal microwave effects. Chemical Society. Reviews. 2005, 34,

164

[404] Cordoba, M., Izquierdo, M. L., Alvarez-Builla, J. New approaches to the

synthesis of pyridinium N-het-eroarylaminides, Tetrahedron, 2008, 64, 7914-7919.

[405] Sharma, A., Pravinchandra, M. V., Van Hecke K., Van Meervelt L., Van der

Eycken E. Synthesis of 5-(phenylsulfanyl)-1,4-dihydropyrazine-2,3-diones via an

unexpected microwave-assisted cascade reaction, Tetrahedron Letters, 2008, 49,

4993-4996.

[406] Zang, B., Yang, R., Liuc, Z. Microwave-assisted extraction of chlorogenic acid

from flower buds of Lonicera japonica Thunb, Seperation and Purification

Technology, 2008, 62, 480-483.

[407] Boldor, D., Balasubramanian, S., Purohit, S., Rusch, K. A. Design and

implementation of a continuous microwave heating system for ballast water

treatment, Enviromental Science Technology, 2008, 42, 4121-4127,

[408] Kundu, S., Peng, L., Liang, H. A new route to obtain high-yield multiple-shaped

gold nanoparticles in aqueous solution using microwave irradiation, Inorganic

Chemistry, 2008, 47, 6344-6352.

[409] Biswas, A., Shogren, R. L., Selling, G., Salch, J., Willett, J. L., Buchanan, C. M.

Rapid and environmentally friendly preparation of starch esters, Carbohydrate

Polymers, 2008, 74, 137-141, 2008.

[410] Martinez-Gallegos, S., Herrero, M., Rives, V. In situ microwave-assisted

polymerization of polyethyl-ene terephthalate in layered double hydroxides, Journal

of Applied Polymer Science, 2008, 109, 1388-1394

[411] Shah, B. A., Shah, A. V., Patel, N. B. A benign approach of microwave assisted

synthesis of copolymeric resin with improved thermal, spectral and ion-exchange

properties, Iranian Polymer Journal, 2008, 17, 3-17

[412] Mero, A., Pasut, G., Via, L. D., Fijten, M. W., Schubert, U. S., Hoogenboom, R.,

Veronese, F. M. Synthesis and characterization of poly(2-ethyl 2-oxazoline)-

conjugates with proteins and drugs:Suitable alternatives to PEG-conjugates, Journal

of Control Release, 2008, 125, 87-95

REFERENCES


[413] Xie, Y., Yin, S., Yamane, H., Hashimoto, T., Machida, H., Sato, T. Microwave

assisted solvothermal synthesis of a new compound, pyrochlore-type

Sn1.24Ti1.94O3.66(OH)1.50F1.42 , Chemistry of Materials, 2008, 20, 4931-4935.

[414] Cheng, J., Zhou, J., Li, Y., Liu, J., Cen, K. Improvement of coal water slurry

property through coal physicochemical modifications by microwave irradiation and

thermal heat, Energy Fuels, 2008, 22, 2422-2428

[415] Shadpour, M. and Zahra, R. Application of Microwave-assisted Reactions in

Step-growth Polymerization: A Review, Iranian Polymer Journal, 2008, 17, 907-

935,

[416] Zhang, C., Liao, L., Gong, S. Recent developments in microwave-assisted

polymerization with a focus on ring-opening polymerization, Green Chemistry,

2007, 9, 303-314




[418] Bogdal D, Prociak A. Microwave-enhanced Polymer Chemistry and Technology,

Blackwell Asia, 2007

[419] Mijovi J., Wijaya J. Review of cure polymers and composites by microwave

energy, Polymer Composite, 1990, 11, 184-191

[420] Zong L., Zhou S., Sgriccia N., Hawley M. C., Kepel L. C. A review of

microwave-assisted polymer chemistry (MAPC), Journal of Microwave Power

electromagnet Energy, 2003, 38, 49-74

[421] Clark D. E., Sutton W. H. Microwave processing of materials, Annual Review of

Material Science, 1996, 26, 299-331

[422] Dariusz B., Piotr P., Jan P., Aleksander P. Microwave assisted synthesis,

crosslinking and processing of polymeric materials, Advances in Polymer Science,

2003, 163, 193-263

[423] Hussain F., Hojjati M. Polymer-matrix nanocom-posites, processing,

manufacturing, and application: an overview, Journal of Composite Materials, 2006,

40, 1511-1575.

REFERENCES


[424] Oliver K. C., Stadler A. Microwaves in Organic and Medicinal Chemistry,

WILEY-VCH, Weinheim, 2005

[425] Oliver K. C., Stadler A. Controlled Microwave Heating in Modern Organic

Synthesis, Wiley-VCH, Weinheim, 2004.

[426] Patel, H. S., Naji, A. Studies on [(tetrahydrophthalated cyclohexanone-

formaldehyde resin)-(epoxy resin)] condensates, Der Chemica Sinica, 2011, 2, 98-

117

[427] Jonghun, H. and Minyoung, S. Evaluation of Corrosion Protection for Epoxy and

Urethane Coating by EIS under Various Cyclic Corrosion Tests, Corrosion science

and Technology, 2011,10, 95-100.

[428] Xingshou, P., Guoxiang, C., Shulai, L. Morphology and Thermodynamic analysis

of composite polymer particles prepared by soap-free emulsion polymerisation in the

presence of poly (Methyl methacrylate) and polystyrene as bio seeds, Journal of

Applied Polymer Science, 2004, 92, 2675-2680

[429] Leidheiser, H. Corrosion of painted metal: A review, Corrosion, 1982, 38, 374.

[430] Nguyen, T.; Bentz, D. P.; Byrd, W. E. Method for Measuring Water Diffusion in

a Coating Applied to a Substrate. Journal of Coatings Technology, 1995, 67, 37-46.

[431] Mansfeld, F. Use of EIS for the study of corrosion protection by polymer

coatings, Journal of Applied Electrochemistry, 1995, 25, 187.

[432] Bonora, P.L., Deflorian, F., Fedrizzi, L. Electrochemical impedance spectroscopy

as a tool for investigating underpaint corrosion, Electrochemical Acta, 1996, 41,

1073

[433] Shylesha, B. S., Venkatesha, T. V. and Praveen, B. M. New Electroactive

compounds as corrosion inhibitorsfor zinc in acidic medium, Advances in Applied

Science and Research, 2011, 2, 333-341

[434] Nadia, H., Hacene, C., Gildas, G., Kamel, B. The Corrosion Protection Behavior

of Zinc Rich Epoxy Paint in 3% NaCl Solution. Advances in Chemical Engineering

and Science, 2011, 1, 51-60

[435] Hartshorn, L. and Rushton, E. Society of Chemical Industry (Great Britain),

Journal of the Indian Chemical Society, 1937, 56, 260-266.

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