…combustion synthesis of materials · photonic materials. scientific american . 255 (4), october,...
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…spread the fragrance of knowledge…St. Paul's 2nd Letter to Corinthians 2:14-15
…Combustion Synthesis of Materials1. Overview
Prof. Sotiris E. PratsinisParticle Technology Laboratory
Department of Mechanical and Process Engineering,ETH Zürich, Switzerland
www.ptl.ethz.ch
Sponsored byEuropean Research Council, DuPont, Dow, Millennium,
U.S. and Swiss National Science Foundation, Swiss Commission for Technology and Innovation
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AEROSOL SYNTHESIS OF NANOSTRUCTURED PARTICLES @ the early 2000
ProductParticles
Carbon black
Titania
Fumed Silica
Filamentary Ni
Fe, Pt, Zn2SiO4/Mn
VolumeMt/y
8
2
0.2
0.6
0.04
~0.02
ValueB$/y
8
4
2
0.7
~0.1
~1
Process, precursor
Flame, CxHy
Flame, TiCl4
Flame, SiCl4
Hot –Wall, Zn
Hot-Wall, Ni(CO)4
Hot-Wall, Spray…
Zinc Oxide
Reproduced by permission from Elsevier
Wegner, Pratsinis Chem. Eng. Sci. 58, 4581-9 (2003).
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ReactorFlame LaserPlasmaHot-wallMicrowave
StorageDust explosionsFluffinessHydrationPhase stability……..
CoolingGas (Air, N2)Spray (H2O)Shell & TubeHeat Exchanger
CollectionBaghouse FiltersElectrostatic . . PrecipitationImpactionThermophoresis
RawMaterials
Precursor ….vapors, Gases Liquid SpraysSolid Powders
Gas Treatment
RecyclingCleaningStorage
CoatingCarbon, Polymer or .....Ceramic ShellTexture (smooth or …..granular)Free Shell or Bare ……Core Particles
Functional- ization
Stability in ……..solutionSurface ……composition
Process Steps during Aerosol Synthesis of Materials
B. Buesser, SEP, Design of Nanomaterial Synthesis by Aerosol Processes , Annual Rev. Chem. Biomol. Eng., 3, 103–127 (2012).
Reproduced by permission from Annual Reviews
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4Ulrich, G. D. (1984). Flame Synthesis of Fine Particles. Chem. Eng. News, 62 (32), 22-29.
Combustion is also the earliest aerosolprocess formanufacturing of nanostructuredparticles
Ink production in China
Oriental worker scrappingthermophoreticallydeposited soot from wallsw/o protection
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The Bible of Gutenberg
Library, Harvard University, Cambridge, MA
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Advertisement in Farbe & Lacke (1949) of SiO2 nanoparticles
Between 4 to 20 millimicron is the particle size of aerosil, the new additive for the lacquer industry.
Please ask for the new brochure at Degussa, Carbon Black Dept., Frankfurt
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Flowing aidSiO2($3 B)
Courtesy of Cabot
Paints & (photo)Catalysts
TiO2($5 B)
Courtesy of Dupont
Tires (~30 wt%)
Carbon Black ($10B)
Inks
Flame-made Commodities @ t/h today
25 t/h, Re 106
Courtesy of Evonik
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9Rowell, J. M. (1986). Photonic Materials. Scientific American 255 (4), October, 146-157.K.S. Kim, SEP, Manufacture of Optical Waveguide Preforms by Modified Chemical
Vapor Deposition, AIChE J., 34, 912-921 (1988).
Commercially advanced today by Corning Glass, Sumitomo, Heraeus, Furakawa etc.
Reproduced by permission of George Retschek, illustrator for Scientific American
MCVD operation by combining Fluid & Particle Dynamics
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A rough analogy to flame aerosol reactors
… just well attached to the ground !PTL, ETH Zurich
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Advantages of flame-made materials
2. No liquid by-products
7. Efficiency: Few and fast unit operations
3. Easier particle collection
4. High purity products
6. Unique morphology
Aerosol-based Technologies in Nanoscale Manufacturing: from Functional Materials to Devices through Core Chemical Engineering, AIChE J. 56, 3028-3035 (2010)
8. Process design from first principles.
1. Scalability
5. Stable metastable phases
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Disadvantages of flame synthesis of materials
1. Capital Investment (hoods, controls, filters)
2. Safety
3. Precursor availability, preparation & handling
4. Product purity, morphology, uniformity and composition (PICs, crystallinity)
R. Koirala, SEP, A. Baiker, Synthesis of catalytic materials in flames: opportunities and challenges, Chemical Society Reviews, 45, 3053-3068 (2016)
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InceptionSurface Growth
Sintering or CoalescenceAggregation(chemical bonding)
Agglomeration(physical bonding)
Collisions between molecules, clusters & particles
Particle Formation & Growth in FlamesB. Buesser, SEP (2012). Annual Rev. Chem. Biomol. Eng., 3, 103–27
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14Bambha RP, Dansson MA, Schrader PE, Michelsen HA, Carbon 86, 91 (2013)
Df = 1.88
Key ConceptsAIChE J. 56, 3028-3035 (2010)
1.High temperature particle residence time (HTPRT)
2. Self-preserving particle size distributionconstant polydispersity
σg1.45σg2.3 / 1.95
3. Fractal-like particlestructure
fD
gn
p p
rm km r
=
Dfm 2.15
Df 1.91 / 1.78
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Multi-Scale Design for Aerosol Synthesis of Nanoparticles
Design of Nanomaterial Synthesis by Aerosol Processes Annual Rev. Chem. Biomol. Eng., 3, 103-127 (2012).Reproduced by permission from Annual Reviews
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Multi-Scale Design for Aerosol Synthesis of Nanoparticles
16Restructuring of Aggregates and their Primary Particle Size Distribution during Sintering, AIChE J. 59, 1118 - 1126 (2013)Reproduced by permission from Wiley
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Multi-Scale Design for Aerosol Synthesis of Nanoparticles
17Sintering Rate and Mechanism of TiO2 by Molecular Dynamics, J. Phys. Chem. C, 115, 11030-11035 (2011)
Reproduced by permission from ACS Copyright 2011 Amer. Chem. Soc.
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Multi-Scale Design for Aerosol Synthesis of Nanoparticles
18Surface Composition and Crystallinity of Coalescing Silver–Gold Nanoparticles, ACS Nano, 11: 11653-11660 (2017)
Reproduced by permission from ACS Copyright 2017 Amer. Chem. Soc.
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Quantitative understanding facilitates a) Scale-up ….
H2-air diffusion flame
700 g/h SiO2
Re= 3’000-16’000
H. Kammler, R. Müller, O. Senn, SEP, AIChE J., (2001).
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… to 5 kg/h even @ University labs…R. Strobel, SEP, J. Mater. Chem., 2007, 17, 4743–4756
Copyright 2007 Royal Soc. Chem.
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Spray flame producing Pt/Al2O3
Droplet evaporation
Nucleation
CondensationCoagulation
Aggregation
O 2CH4/O2
Precursor/fuel
Mädler, L., Müller, R., Kammler, H., SEP, J. Aerosol Sci. 33, 369-389 (2002).21
A 6-year, 6M Euro program by German NSF for 20 PhD students started in April 2017
Strobel, R., Stark, W.J., Mädler, L., SEP, Baiker, A., J. Catal., 213, 296-304, (2003).
… and b) drives innovationMulticomponent Nanomaterials en mass
by Flame Spray Pyrolysis (FSP)
NIH – NHIR $5M
Reprinted with permission from Elsevier
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Flame reactor pilot plant, Johnson Matthey Research Center, Reading, UK
History of the Manufacture of Fine Particles in High-Temperature Aerosol Reactors" in "Aerosol Science and Technology: History and Reviews", ed. D.S. Ensor & K.N. Lohr, RTI Press, Ch. 18, pp.475-507, 2011.
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New aerosol-made products in the market
nano-Ag for antibacterial applications
x = 1 2 6 10 25 50 75 95 98
Bio-magnetic ferrofluids: C-coated Co100k – 1M$/kg
Ag/SiO2nanosilvertoxicity by ions or particles?
Flame-to-order Nanoparticle Compositions
Product #697745 500 mg dry powder @ $105
GA Sotiriou, SEP, Environ. Sci. Technol., 44, 5649-5654 (2010)Copyright, 2010, Amer. Chem.Soc.
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Phosphors for tumor imaging and authentication
2 Tb 2 Tb0.1 Eu
2 Tb0.25 Eu
2 Tb0.5 Eu
2 Tb1 Eu 1 Eu
SiO2-coated _SPION/Ag
Nutrition Supplements
Non-fortified FePO4 0.5 FeSO4
Conductive composites
Devices: Breath Sensors
Dental fillers
Novel aerosol-made
functional materials
Highly Efficient Photocatalysts
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Functional films: one - step synthesis
R. Strobel, SEP, J. Mater. Chem., 17, 4743 - 4756 (2007).Reproduced by permission of The Royal Society of Chemistry
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5 μ
c
5 μm
5 μm
a
c
5 µm5 µm
Gas Sensors
A. Tricoli, M. Graf, F. Mayer, S. Kühne, A. Hierlemann, SEP., Adv. Mater., 20, 3005-10 (2008).Copyright Wiley-VCH Verlag GmbH & Co. KGaA. Reproduced with permission
S. Kühne, M. Graf, A. Tricoli, F. Mayer, SEP, A. Hierlemann, J. Micromech. Microeng. 18, 035040 (2008).Reprinted with permission from Elsevier
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Industrial prototype for clinical evaluation
M. Righettoni, A. Ragnoni, A.T. Güntner, C. Loccioni, SEP, T.H. Risby J Breath Res., 9, 047101 (2015)
Pictures of actualdevices for breathanalysis
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A.T. Güntner, N.A. Sievi, S.J. Theodore, T. Gulich, M. Kohler, SEP, Anal. Chem., 89, 10578–10584 (2017).
Copyright 2017 Amer. Chem. Soc.
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Conclusions
High-value materials are produced, mostly by spray combustion, creating new products & applications
These drive renewed interest on fundamentals:
Coagulation, sintering & surface growth
Combustion enables material synthesis @ t/h
Combustion variables
Particle characteristics
Product performance
x = 1 2 6 10 25 50 75 95 98
Primary & aggregate particle size, structure& compositionhigh temperature
residence time
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Selected Books & ReviewsAerosol Processing of Materials, T.T. Kodas M. Hampden-Smith, Wiley, 1999.Smoke, Dust & Haze, S.K. Friedlander, Oxford, 2nd ed. 2000
Ulrich, G. D. (1984). Flame Synthesis of Fine Particles. Chem. Eng. News, 62 (32), 22 Material Synthesis in Aerosol Reactors. Chem. Eng. Prog., 85 (5), 62-66
Rosner, D. E. (1997). Combustion synthesis and materials processing Chem. Eng. Edu., 31, 228-235.Swihart, M.T. (2003). Vapor-phase synthesis of nanoparticles. Curr. Opin. Colloid Interface Sci., 8,
127-133.Flame aerosol synthesis of smart nanostructured materials. J. Mater. Chem., 17, 4743 - 4756 (2007). Roth, P. (2007). Particle synthesis in flames. Proc. Comb. Inst., 31, 1773-1788.Vollath D.(2007). Plasma Synthesis of Nanoparticles. KONA, 25, 39–55.Phillips, J., Luhrs, C. C., Richard, M. (2009). Review: Engineering Particles Using the Aerosol-
through-Plasma Method. IEEE Trans. Plasma Sci. 37, 726-739.Athanassiou, E. K., Grass, R. N., & Stark, W. J. (2010). Chemical Aerosol Engineering as a Novel
Tool for Material Science: From oxides to Salt and Metal Nanoparticles. Aerosol. Sci. Technol., 44, 161-172.
Aerosol-based Technologies in Nanoscale Manufacturing: from Functional Materials to Devices through Core Chemical Engineering, (2010) AIChE J., 56, 3028-3035
B. Buesser, S.E. Pratsinis, Design of Nanomaterial Synthesis by Aerosol Processes, (2012) Annual Rev. Chem. Biomol. Eng., 3, 103–27
R. Koirala, S.E. Pratsinis, A. Baiker, "Synthesis of catalytic materials in flames: opportunities and challenges", Chem. Soc. Rev., 45, 3053-3068 (2016).
A.T. Güntner, S. Abegg, K. Königstein, P.A. Gerber, A. Schmidt-Trucksäss, S.E. Pratsinis, Breath Sensors for Health Monitoring, ACS Sensors, 4, 268-280 (2019).
V.G. Mavrantzas, S.E. Pratsinis, The impact of molecular simulations in gas-phase manufacture of nanomaterials, Curr. Opinion Chem. Eng., 23, 174–183 (2019).