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Historic aspects of fuel cell development in Ukraine | 1 | |
Solid oxide fuel cells in Russia | 11 | |
Intermediate-temperature SOFC electrolytes | 19 | |
Scandia-Zirconia electrolytes and electrodes for SOFCs | 35 | |
Exploration of combustion CVD method for YSZ thin film electrolyte of solid oxide fuel cells | 49 | |
Development of DMFC for portable application | 59 | |
Synthesis of porous and dense elements of SOFC by electron beam physical vapor deposition (EBPVD) | 73 | |
Fullerene structures suitable for fuel cells electrodes | 81 | |
Metallic materials in solid oxide fuel cells | 97 | |
SOFC worldwide - technology development status and early applications | 107 | |
Recent results of stack development at Forschungszentrum Julich | 123 | |
Configuration of twin walls in LSGMO | 135 | |
Structural stability and ion transport in LaSr[subscript 2]Fe[subscript 1-y]Cr[subscript y]O[subscript 8+[delta]] | 149 | |
Electric power generation based on coal slurry electrolysis with subsequent usage of produced hydrogen in fuel cells | 157 | |
Results of organic fuel conversion at fuel cell test installation | 163 | |
CIP-based fabrication of SOFC ceramic components from oxide nanocrystalline powder materials | 175 | |
The state of fuel cells and its development in Ukraine | 181 | |
Synthesis of cermet Sr(Ti,Fe)O[subscript 3-[delta]]-PtRu by combustion | 187 | |
Hydrogen storage in metal hydride under action of sunlight | 193 | |
Hydrides of transition metals as hydrogen accumulators for power engineering | 199 | |
Mathematical modeling and experimental study of proton exchange membrane fuel cells | 205 | |
Experimental and theoretical study of metal-hydride reactors | 211 | |
Cellulose-precursor synthesis of electrocatalytically active components of SOFCs and mixed-conducting membrane reactors | 223 | |
Glass-ceramic sealants for SOFC-based systems | 231 | |
Effect of "uphill" diffusion in solid electrolytes ZrO[subscript 2]+8mol.%Sc[subscript 2]O[subscript 3] and ZrO[subscript 2]+8mol.% Y[subscript 2]O[subscript 3] | 239 | |
Nanoparticle synthesis of LSM SOFC cathode materials | 245 | |
SOFC powder synthesis by the organic steric entrapment method | 381 | |
Nanoscaled oxide thin films for energy conversion | 395 |
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Add Fuel Cell Technologies, Fuel Cells have become a potentially highly efficient sustainable source of energy and electricity for an ever-demanding power hungry world. The two main types of fuel cells ripe for commercialisation are the high temperature solid oxide fuel cell (SOFC) , Fuel Cell Technologies to the inventory that you are selling on WonderClubX
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Add Fuel Cell Technologies, Fuel Cells have become a potentially highly efficient sustainable source of energy and electricity for an ever-demanding power hungry world. The two main types of fuel cells ripe for commercialisation are the high temperature solid oxide fuel cell (SOFC) , Fuel Cell Technologies to your collection on WonderClub |