Keywords: الکترولیت هدایت پروتون; Rapid thermal processing; Chemical solution deposition; Yttrium-doped barium zirconate; Solid oxide fuel cell; Proton-conducting electrolyte;
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Nanoporous palladium anode for direct ethanol solid oxide fuel cells with nanoscale proton-conducting ceramic electrolyte
Keywords: الکترولیت هدایت پروتون; Direct ethanol fuel cells; Low-temperature solid oxide fuel cell; Proton-conducting electrolyte; Pd anode;
Keywords: الکترولیت هدایت پروتون; Solid oxide fuel cell; Proton conductor; Ammonia; Oxygen-ion-conducting Electrolyte; Proton-conducting electrolyte;
Ba1âxSrxCe0.8âyZryY0.2O3âδ protonic electrolytes synthesized by hetero-composition-exchange method for solid oxide fuel cells
Keywords: الکترولیت هدایت پروتون; Proton-conducting electrolyte; Solid oxide fuel cells; Ba1âxSrxCe0.8âyZryY0.2O3âδ; Chemical stability; Ionic conductivity;
Chemical stability and electrical and mechanical properties of BaZrxCe0.8-xY0.2O3 with CeO2 protection method
Keywords: الکترولیت هدایت پروتون; Proton-conducting electrolyte; Solid oxide fuel cells; BaZrxCe0.8-xY0.2O3; Chemical stability; Ionic conductivity;
Potassium doping optimization in proton-conducting Ba1-xKxCe0.6Zr0.2Y0.2O3-δ oxides for fuel cell applications
Keywords: الکترولیت هدایت پروتون; Proton-conducting electrolyte; Solid oxide fuel cells; Ionic conductivity Ba1-xKxCe0.6Zr0.2Y0.2O3-δ; Chemical stability;
Sulfur and carbon tolerance of BaCeO3-BaZrO3 proton-conducting materials
Keywords: الکترولیت هدایت پروتون; BaCeO3; BaZrO3; Perovskite; Proton-conducting electrolyte; Phase stability; SOFC;
BaZr0.2Ce0.8âxYxO3âδ solid oxide fuel cell electrolyte synthesized by sol-gel combined with composition-exchange method
Keywords: الکترولیت هدایت پروتون; Proton-conducting electrolyte; Solid oxide fuel cells; BaZr0.2Ce0.8âxYxO3âδ; Chemical stability; Ionic conductivity;
Proton-conducting Ba1−xKxCe0.6Zr0.2Y0.2O3−δ oxides synthesized by sol–gel combined with composition-exchange method
Keywords: الکترولیت هدایت پروتون; C. Ionic conductivity; Proton-conducting electrolyte; Solid oxide fuel cells; Ba1−xKxCe0.6Zr0.2Y0.2O3−δ; Chemical stability
Evaluation of molybdenum carbide as anode catalyst for proton-conducting hydrogen and ethane solid oxide fuel cells
Keywords: الکترولیت هدایت پروتون; Molybdenum carbide; Proton-conducting electrolyte; Solid oxide fuel cell; Ethane dehydrogenation to ethylene
Y-doped BaCeO3âδ nanopowders as proton-conducting electrolyte materials for ethane fuel cells to co-generate ethylene and electricity
Keywords: الکترولیت هدایت پروتون; Doped barium cerate; Perovskite; Nanopowders; Proton-conducting electrolyte; Solid oxide fuel cell; Ethane dehydrogenation to ethylene;
Analysis of planar solid oxide fuel cells based on proton-conducting electrolyte
Keywords: الکترولیت هدایت پروتون; Planar solid oxide fuel cell; Proton-conducting electrolyte; Electrochemical model; Fick's Model; Performance analysis
Performance evaluation of combined solid oxide fuel cells with different electrolytes
Keywords: الکترولیت هدایت پروتون; Solid oxide fuel cell; Hybrid system; Oxygen-conducting electrolyte; Proton-conducting electrolyte; Performance evaluation
Nano-sized Sm0.5Sr0.5CoO3−δ as the cathode for solid oxide fuel cells with proton-conducting electrolytes of BaCe0.8Sm0.2O2.9
Keywords: الکترولیت هدایت پروتون; Solid oxide fuel cells (SOFCs); Proton-conducting electrolyte; Cathode performance; Polarization resistance; Impregnation technique
BaZr0.1Ce0.7Y0.2O3âδ proton-conducting electrolyte prepared by gel-casting for low-temperature solid oxide fuel cells
Keywords: الکترولیت هدایت پروتون; Low-temperature solid oxide fuel cells; BaZr0.1Ce0.7Y0.2O3âδ; Gel-casting; Proton-conducting electrolyte; Solid-state reaction;
Electrical behavior of proton-conducting chitosan-phosphoric acid-based electrolytes
Keywords: الکترولیت هدایت پروتون; 71.20. Fw; 72.80.-r; 72.10.ByChitosan; Proton-conducting electrolyte; Conductivity; Conduction model; Non-Debye relaxation
Li2SO4-based proton-conducting membrane for H2S-air fuel cell
Keywords: الکترولیت هدایت پروتون; Fuel cell; Lithium sulfate membrane; Proton-conducting electrolyte; Boric acid; Hydrogen sulfide fuel; Composite sulfide anode catalyst;