Access the full text.
Sign up today, get DeepDyve free for 14 days.
Jing-Chiang Chen, B. Hwang (2007)
Microstructure and Properties of the Ni–CGO Composite Anodes Prepared by the Electrostatic‐Assisted Ultrasonic Spray Pyrolysis MethodJournal of the American Ceramic Society, 91
T. Gestel, D. Sebold, H. Buchkremer (2015)
Processing of 8YSZ and CGO thin film electrolyte layers for intermediate- and low-temperature SOFCsJournal of The European Ceramic Society, 35
B. Steele (2001)
Material science and engineering: The enabling technology for the commercialisation of fuel cell systemsJournal of Materials Science, 36
TP Niesen, MRDE Guire (2002)
Review : deposition of ceramic thin films at low temperatures from aqueous solutionsSolid State Ionics, 151
G. Jayanthi, S. Zhang, G. Messing (1993)
Modeling of Solid Particle Formation During Solution Aerosol Thermolysis: The Evaporation StageAerosol Science and Technology, 19
J. Aranovich, A. Ortiz, R. Bube (1979)
Optical and electrical properties of ZnO films prepared by spray pyrolysis for solar cell applicationsJournal of Vacuum Science and Technology, 16
(2008)
Microstructure and properties of the Ni-CGO composite anodes prepared by the electrostaticassisted ultrasonic spray pyrolysis method
J. Shim, C. Chao, A. Huang, F. Prinz (2007)
Atomic layer deposition of yttria-stabilized zirconia for solid oxide fuel cellsChemistry of Materials, 19
J. Rupp, T. Drobek, Andrea Rossi, L. Gauckler (2007)
Chemical Analysis of Spray Pyrolysis Gadolinia-Doped Ceria Electrolyte Thin Films for Solid Oxide Fuel CellsChemistry of Materials, 19
A. Hanifi, A. Shinbine, T. Etsell, P. Sarkar (2012)
Development of Monolithic YSZ Porous and Dense Layers through Multiple Slip Casting for Ceramic Fuel Cell ApplicationsInternational Journal of Applied Ceramic Technology, 9
G. Scherer (1992)
Crack-tip stress in gelsJournal of Non-crystalline Solids, 144
A. Hunt, W. Carter, J. Cochran (1993)
Combustion chemical vapor deposition: A novel thin‐film deposition techniqueApplied Physics Letters, 63
D. Das, R. Basu (2014)
Electrophoretic Deposition of Zirconia Thin Film on Nonconducting Substrate for Solid Oxide Fuel Cell ApplicationJournal of the American Ceramic Society, 97
N. Gelfond, O. Bobrenok, M. Predtechensky, N. Morozova, K. Zherikova, I. Igumenov (2009)
Chemical vapor deposition of electrolyte thin films based on yttria-stabilized zirconiaInorganic Materials, 45
M. Sahibzada, B. Steele, K. Zheng, R. Rudkin, J. Bae, N. Kiratzis, D. Waller, Is Metclfe (1996)
Investigations on Intermediate Temperature (500~650¡ÆC) PEN Structures Incorporating Ce(Gd)O2-xElectrolytes
(1990)
Growth of Y–Ba–Cu–O superconducting thin films by ultrasonic spray pyrolysis
E. Courtin, P. Boy, Clément Rouhet, L. Bianchi, E. Bruneton, N. Poirot, C. Laberty‐Robert, C. Sanchez (2012)
Optimized Sol–Gel Routes to Synthesize Yttria-Stabilized Zirconia Thin Films as Solid Electrolytes for Solid Oxide Fuel CellsChemistry of Materials, 24
J. Schoonman (2000)
Nanostructured materials in solid state ionicsSolid State Ionics, 135
J. Will, A. Mitterdorfer, C. Kleinlogel, D. Perednis, L. Gauckler (2000)
Fabrication of thin electrolytes for second-generation solid oxide fuel cellsSolid State Ionics, 131
W. Sears, Michael Gee (1988)
Mechanics of film formation during the spray pyrolysis of tin oxideThin Solid Films, 165
T. Fukui, S. Ohara, M. Naito, K. Nogi (2003)
Synthesis of NiO–YSZ composite particles for an electrode of solid oxide fuel cells by spray pyrolysisPowder Technology, 132
S. Singhal, K. Kendall (2003)
High temperature solid oxide fuel cells : fundamentals, design and applicatons
(1994)
Flame-assisted deposition of lead titanate-based thin films: correlation of deposition process, microstructure and electrical properties
Hanna Tikkanen, C. Suciu, Ivar Wærnhus, A. Hoffmann (2011)
Examination of the co-sintering process of thin 8YSZ films obtained by dip-coating on in-house produced NiO–YSZJournal of The European Ceramic Society, 31
(2001)
2001)Material science and engineering: the enabling technology for the commercialisation of fuel cell systems
R. Reolon, C. Halmenschlager, R. Neagu, C. Malfatti, C. Bergmann (2014)
Electrochemical performance of gadolinia-doped ceria (CGO) electrolyte thin films for ITSOFC deposited by spray pyrolysisJournal of Power Sources, 261
K.H Leong (1987)
Morphological control of particles generated from the evaporation of solution droplets: Theoretical considerationsJournal of Aerosol Science, 18
V. Bagotsky (2009)
Fuel Cells: Problems and Solutions
K. Rodrigo, J. Knudsen, N. Pryds, J. Schou, S. Linderoth (2007)
Characterization of yttria-stabilized zirconia thin films grown by pulsed laser deposition (PLD) on various substratesApplied Surface Science, 254
D. Freude (1997)
Fuel Cells and Their ApplicationsZeitschrift für Physikalische Chemie, 198
H. Hamedani, K. Dahmen, Dongsheng Li, Houman Peydaye-Saheli, H. Garmestani, M. Khaleel (2008)
Fabrication of gradient porous LSM cathode by optimizing deposition parameters in ultrasonic spray pyrolysisMaterials Science and Engineering B-advanced Functional Solid-state Materials, 153
(2012)
Electrochemical performance of Nixx
K. Choy, B. Su (2001)
Growth behavior and microstructure of CdS thin films deposited by an electrostatic spray assisted vapor deposition (ESAVD) processThin Solid Films, 388
V. Vasu, A. Subrahmanyam (1990)
Reaction kinetics of the formation of indium tin oxide films grown by spray pyrolysisThin Solid Films
W. Steckelmacher (1979)
Physics of thin filmsVacuum, 46
S. Heiroth, T. Lippert, A. Wokaun, M. Döbeli, J. Rupp, B. Scherrer, L. Gauckler (2010)
Yttria-stabilized zirconia thin films by pulsed laser deposition: Microstructural and compositional controlJournal of The European Ceramic Society, 30
N. Stelzer, J. Schoonman (1996)
Synthesis of terbia-doped yttria-stabilized zirconia thin films by electrostatic spray deposition (ESD)Journal of Materials Synthesis and Processing
H. Hidalgo, A. Thomann, T. Lecas, J. Vulliet, K. Wittmann-Ténèze, D. Damiani, E. Millon, P. Brault (2013)
Optimization of DC Reactive Magnetron Sputtering Deposition Process for Efficient YSZ Electrolyte Thin Film SOFCFuel Cells, 13
E. Murray, M. Sever, S. Barnett (2002)
Electrochemical performance of (La,Sr)(Co,Fe)O3–(Ce,Gd)O3 composite cathodesSolid State Ionics, 148
O. Marina, C. Bagger, S. Primdahl, M. Mogensen (1999)
A solid oxide fuel cell with a gadolinia-doped ceria anode: preparation and performanceSolid State Ionics, 123
A. Heel, A. Vital, P. Holtappels, T. Graule (2009)
Flame spray synthesis and characterisation of stabilised ZrO2 and CeO2 electrolyte nanopowders for SOFC applications at intermediate temperaturesJournal of Electroceramics, 22
A. Stoermer, J. Rupp, L. Gauckler (2006)
Spray pyrolysis of electrolyte interlayers for vacuum plasma-sprayed SOFCSolid State Ionics, 177
D. Beckel, U. Muecke, T. Gyger, G. Florey, A. Infortuna, L. Gauckler (2007)
Electrochemical performance of LSCF based thin film cathodes prepared by spray pyrolysisSolid State Ionics, 178
E. Barringer, H. Bowen (1982)
Formation, Packing, and Sintering of Monodisperse TiO2 PowdersJournal of the American Ceramic Society, 65
P. Coddet, H. Liao, C. Coddet (2014)
A review on high power SOFC electrolyte layer manufacturing using thermal spray and physical vapour deposition technologiesAdvances in Manufacturing, 2
Lin Liu, G. Kim, A. Chandra (2010)
Fabrication of solid oxide fuel cell anode electrode by spray pyrolysisJournal of Power Sources, 195
M. Otani, S. Tsukui, KEN-ICHI Yoshida, Y. Umezaki, T. Mukai (2010)
Fabrication of Gd0.5Sr0.5CoO3 film for SOFC cathode by pulsed laser depositionSolid State Ionics, 180
D. Beckel, A. Dubach, A. Studart, L. Gauckler (2006)
Spray pyrolysis of La0.6Sr0.4Co0.2Fe0.8O3-δ thin film cathodesJournal of Electroceramics, 16
Richard Johnson, A. Hultqvist, S. Bent (2014)
A brief review of atomic layer deposition: from fundamentals to applicationsMaterials Today, 17
Sungmee Cho, Y. Kim, Jung-Hyun Kim, A. Manthiram, Haiyan Wang (2011)
High power density thin film SOFCs with YSZ/GDC bilayer electrolyteElectrochimica Acta, 56
P. Silva, R. Vieira, C. Halmenschlager, F. Oliveira, C. Bergmann (2015)
Low temperature synthesis by spray pyrolysis of La0.9Sr0.1Co0.2Fe0.8O3 thin films using ethanol and water as a solvent and their microstructural characterizationCeramics International, 41
N. Minh (1993)
Ceramic Fuel CellsJournal of the American Ceramic Society, 76
G. Hass, D. Gerstenberg (1964)
Physics of Thin FilmsJournal of The Electrochemical Society, 111
B. Scherrer, J. Martynczuk, H. Galinski, J. Grolig, S. Binder, A. Bieberle‐Hütter, J. Rupp, M. Prestat, L. Gauckler (2012)
Microstructures of YSZ and CGO Thin Films Deposited by Spray Pyrolysis: Influence of Processing Parameters on the PorosityAdvanced Functional Materials, 22
(2011)
2011)Microstructural and electrochemical impedance study of nickel Ce0.9Gd0.1O1.95 anodes for solid oxide fuel cells fabricated by ultrasonic spray pyrolysis
C. Lampkin (1979)
Aerodynamics of nozzles used in spray pyrolysisProgress in Crystal Growth and Characterization, 1
GV Jayanthi, SC Zhang, GL Messing (1993)
Modeling of solid particle formation during solution aerosol thermolysisAerosol Sci Technol, 19
Lin Liu, G. Kim, A. Chandra (2012)
Modeling of Ni–CGO anode in a solid oxide fuel cell deposited by spray pyrolysisJournal of Power Sources, 210
B. Hwang, Chin-Liang Chang, Ching-Shiung Hsu, C. Fu (2007)
Electrostatic spray deposition of NiO/CGO filmsJournal of Physics D: Applied Physics, 40
J. Viguie, J. Spitz (1975)
Chemical Vapor Deposition at Low TemperaturesJournal of The Electrochemical Society, 122
E. Papastergiades, S. Argyropoulos, N. Rigakis, N. Kiratzis (2009)
Fabrication of ceramic electrolytic films by the method of solution aerosol thermolysis (SAT) for solid oxide fuel cells (SOFC)Ionics, 15
M Sahibzada (1996)
Proceedings of the 2nd European solid oxide fuel cell forum
S. Charojrochkul, K. Choy, B. Steele (2004)
Flame assisted vapour deposition of cathode for solid oxide fuel cells. 1. Microstructure control from processing parametersJournal of The European Ceramic Society, 24
D. Perednis, L. Gauckler (2005)
Thin Film Deposition Using Spray PyrolysisJournal of Electroceramics, 14
C. Halmenschlager, R. Neagu, L. Rose, C. Malfatti, C. Bergmann (2013)
Influence of the process parameters on the spray pyrolysis technique, on the synthesis of gadolinium doped-ceria thin filmMaterials Research Bulletin, 48
D. Marrero-López, L. Santos‐Gómez, J. Canales‐Vázquez, F. Martín, J. Ramos-Barrado (2014)
Stability and performance of nanostructured La0.8Sr0.2MnO3 cathodes deposited by spray-pyrolysisElectrochimica Acta, 134
R. Chamberlin, J. Skårman (1966)
Chemical Spray Deposition Process for Inorganic FilmsJournal of The Electrochemical Society, 113
(2009)
In : Singhal SC , Yokokawa H ( Ed ) , SOFC - XI ECS transactions 25
Yu-Lin Kuo, Yong-Siou Chen, Chiapyng Lee (2011)
Growth of 20 mol% Gd-doped ceria thin films by RF reactive sputtering: The O2/Ar flow ratio effectJournal of The European Ceramic Society, 31
Jong‐Jin Choi, W. Qin, Mingfei Liu, Meilin Liu (2011)
Preparation and Characterization of (La0.8Sr0.2)0.95MnO3−δ (LSM) Thin Films and LSM/LSCF Interface for Solid Oxide Fuel CellsJournal of the American Ceramic Society, 94
KL Chopra, RC Kainthla, DK Pandya, AP Thakoor (1982)
In: Hass G, Francombe MH, Vossen JL (eds) Physics of thin films, academic press Inc, New YorkVol., 12
(2014)
Effect of the deposition temperat u r e o n t h e e l e c t r o c h e m i c a l p r o p e r t i e s o f La0.6Sr0.4Co0.8Fe0.2O3–δ cathode prepared by conventional spray-pyrolysis
M. Chourashiya, L. Jadhav (2011)
Synthesis and characterization of 10%Gd doped ceria (GDC) deposited on NiO-GDC anode-grade-ceramic substrate as half cell for IT-SOFCInternational Journal of Hydrogen Energy, 36
I. Taniguchi, R. Landschoot, J. Schoonman (2003)
Electrostatic spray deposition of Gd0.1Ce0.9O1.95 and La0.9Sr0.1Ga0.8Mg0.2O2.87 thin filmsSolid State Ionics, 160
R. Nédélec, S. Uhlenbruck, D. Sebold, V. Haanappel, H. Buchkremer, D. Stöver (2012)
Dense yttria-stabilised zirconia electrolyte layers for SOFC by reactive magnetron sputteringJournal of Power Sources, 205
Ching-Shiung Hsu, B. Hwang (2006)
Microstructure and Properties of the La0.6Sr0.4Co0.2Fe0.8O3 Cathodes Prepared by Electrostatic-Assisted Ultrasonic Spray Pyrolysis MethodJournal of The Electrochemical Society, 153
B. Angoua, E. Slamovich (2012)
Single solution spray pyrolysis of La0.6Sr0.4Co0.2Fe0.8O3 − δ–Ce0.8Gd0.2O1.9 (LSCF–CGO) thin film cathodesSolid State Ionics, 212
(1996)
Investigations on intermediate temperature (500–650 °C) PEN structures incorporating Ce(Gd)O2-x electrolytes. In: Thorsensen B (ed) Proceedings of the 2nd European solid oxide fuel cell forum
D. Marrero-López, R. Romero, F. Martín, J. Ramos-Barrado (2014)
Effect of the deposition temperature on the electrochemical properties of La0.6Sr0.4Co0.8Fe0.2O3−δ cathode prepared by conventional spray-pyrolysisJournal of Power Sources, 255
Chun-Liang Chang, Ching-Shiung Hsu, B. Hwang (2008)
Unique porous thick Sm0.5Sr0.5CoO3 solid oxide fuel cell cathode films prepared by spray pyrolysisJournal of Power Sources, 179
(2014)
La 0 . 6 Sr 0 . 4 Co 0 . 8 Fe 0 . 2 O 3 – δ cathode prepared by conventional spray - pyrolysis
Y Zou (2011)
Electrophoretic deposition of YSZ thin-film electrolyte for SOFCs utilizing electrostatic-steric stabilized suspensions obtained via high energy ball millingInt J Hydrog Energy, 36
I. Zhitomirsky, A. Petric (2000)
Electrophoretic deposition of ceramic materials for fuel cell applicationsJournal of The European Ceramic Society, 20
J. Ruiz-Morales, J. Canales‐Vázquez, Belén Ballesteros-Pérez, J. Peña-Martínez, D. Marrero-López, J. Irvine, P. Núñez (2007)
LSCM–(YSZ–CGO) composites as improved symmetrical electrodes for solid oxide fuel cellsJournal of The European Ceramic Society, 27
C. Chen, E. Kelder, J. Schoonman (1998)
Effects of additives in electrospraying for materials preparationJournal of The European Ceramic Society, 18
E. Slamovich, F. Lange (1988)
Spherical Zirconia Particles Via Electrostatic Atomization: Fabrication and Sintering CharacteristicsMRS Proceedings, 121
(1995)
Fabrication of ceramic coatings using flame assisted vapour deposition
L. Jadhav, A. Jamale, S. Bharadwaj, S. Varma, C. Bhosale (2012)
Synthesis and characterization of YSZ by spray pyrolysis techniqueApplied Surface Science, 258
(2003)
High temperature solid oxide fuel cells: fundamentals, design and applications
Sangjin Lee, T. Son, J. Yun, H. Kwon, G. Messing, B. Jun (2004)
Preparation of BaTiO3 nanoparticles by combustion spray pyrolysisMaterials Letters, 58
V. Vasu, A. Subrahmanyam (1990)
Electrical and optical properties of sprayed SnO2 films: Dependence on the oxiding agent in the starting materialThin Solid Films
Lin Liu, G. Kim, A. Hillier, A. Chandra (2011)
Microstructural and electrochemical impedance study of nickel–Ce0.9Gd0.1O1.95 anodes for solid oxide fuel cells fabricated by ultrasonic spray pyrolysisJournal of Power Sources, 196
A. Zomeren, E. Kelder, J. Marijnissen, J. Schoonman (1994)
The production of thin films of LiMn2O4 by electrosprayingJournal of Aerosol Science, 25
K. Choy, W. Bai, S. Charojrochkul, B. Steele (1998)
The development of intermediate-temperature solid oxide fuel cells for the next millenniumJournal of Power Sources, 71
S. Nešić, J. Vodnik (1991)
Kinetics of droplet evaporationChemical Engineering Science, 46
T. Niesen, M. Guire (2001)
Review: Deposition of Ceramic Thin Films at Low Temperatures from Aqueous SolutionsJournal of Electroceramics, 6
C. Chen, A. Buysman, E. Kelder, J. Schoonman (1995)
Fabrication of LiCoO2 thin film cathodes for rechargeable lithium battery by electrostatic spray pyrolysisSolid State Ionics, 80
B. Angoua, P. Cantwell, E. Stach, E. Slamovich (2011)
Crystallization and electrochemical performance of La0.6Sr0.4Co0.2Fe0.8O3 − δ-Ce0.8Gd0.2O1.9 thin film cathodes processed by single solution spray pyrolysisSolid State Ionics, 203
(1990)
MICROWAVE SINTERING BEHAVIOR OF ALUMINA CERAMICS
S. Srinivasan (2006)
Fuel Cells: From Fundamentals to Applications
S. Kim, K. Choi, Jae Eun, H. Kim, C. Hwang (2000)
Effects of additives on properties of MgO thin films by electrostatic spray depositionThin Solid Films, 377
A. Tsoga, A. Naoumidis, D. Stöver (2000)
Total electrical conductivity and defect structure of ZrO2–CeO2–Y2O3–Gd2O3 solid solutionsSolid State Ionics, 135
G. Messing, Shi‐Chang Zhang, G. Jayanthi (1993)
Ceramic Powder Synthesis by Spray PyrolysisJournal of the American Ceramic Society, 76
D. Perednis, O. Wilhelm, S. Pratsinis, L. Gauckler (2005)
Morphology and deposition of thin yttria-stabilized zirconia films using spray pyrolysisThin Solid Films, 474
S. Arya, H. Hintermann (1990)
Growth of YBaCuO superconducting thin films by ultrasonic spray pyrolysisThin Solid Films, 2
T. Fukui, T. Oobuchi, Y. Ikuhara, S. Ohara, Kaseki Kodera (1997)
Synthesis of (La,Sr)MnO3–YSZ Composite Particles by Spray PyrolysisJournal of the American Ceramic Society, 80
D. Perednis, L. Gauckler (2004)
Solid oxide fuel cells with electrolytes prepared via spray pyrolysisSolid State Ionics, 166
K. Leong (1987)
Morphological control of particles generated from the evaporation of solution droplets: ExperimentJournal of Aerosol Science, 18
Q. Nguyen, 高橋 武彦 (1995)
Science and technology of ceramic fuel cells
T. Setoguchi, M. Sawano, K. Eguchi, H. Arai (1990)
Application of the stabilized zirconia thin film prepared by spray pyrolysis method to SOFCSolid State Ionics
Jing-Chiang Chen, Chin-Liang Chang, Ching-Shiung Hsu, B. Hwang (2007)
Deposition of Ni-CGO composite anodes by electrostatic assisted ultrasonic spray pyrolysis methodMaterials Research Bulletin, 42
C. Chen, F. Yuan, J. Schoonman (1998)
Spray Pyrolysis Routes to Electroceramic Powders and Thin FilmsChemInform, 29
E. Kelder, O. Nijs, J. Schoonman (1994)
Low-temperature synthesis of thin films of YSZ and BaCeO3 using electrostatic spray pyrolysis (ESP)Solid State Ionics, 68
U. Muecke, G. Messing, L. Gauckler (2009)
The Leidenfrost effect during spray pyrolysis of nickel oxide-gadolinia doped ceria composite thin filmsThin Solid Films, 517
(2015)
Crystallization and electrochemical performance of La 0 . 6 Sr 0 . 4 Co 0 . 2 Fe 0 . 8 O 3 – δ – Ce 0 . 8 Gd 0 . 2 O 1 . 9 thin film cathodes processed by single solution spray pyrolysis
Hong Huang, Masafumi Nakamura, P. Su, R. Fasching, Yuji Saito, F. Prinz (2007)
High-Performance Ultrathin Solid Oxide Fuel Cells for Low-Temperature OperationJournal of The Electrochemical Society, 154
I. Taniguchi, R. Landschoot, J. Schoonman (2003)
Fabrication of La1-xSrxCo1-yFeyO3 thin films by electrostatic spray depositionSolid State Ionics, 156
K. Choy, S. Charojrochkul, B. Steele (1997)
Fabrication of cathode for solid oxide fuel cells using flame assisted vapour deposition techniqueSolid State Ionics, 96
Yuan Zou, Wei Zhou, J. Sunarso, F. Liang, Zongping Shao (2011)
Electrophoretic deposition of YSZ thin-film electrolyte for SOFCs utilizing electrostatic-steric staFuel and Energy Abstracts
The technique of solution aerosol thermolysis (SAT) for the production of components suitable for operation of solid oxide fuel cells (SOFC) is reviewed. Major advantages of the technique include its versatility, low cost, and control of the product stoichiometry at droplet level. Progress in understanding the major physicochemical parameters that play a role in final film morphology is emphasized.
Ionics – Springer Journals
Published: Apr 23, 2016
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.