Atomic layer deposition of yttria-stabilized zirconia for solid oxide fuel cells

Keyphrases

• Atomic Layer Deposition 100%
• Solid Oxide Fuel Cell 100%
• Yttria-stabilized Zirconia 100%
• Zirconia Film 50%
• Electrolyte 33%
• Yttrium Oxide 16%
• Microstructure 16%
• Tris 16%
• X-ray Photoelectron Spectroscopy 16%
• High Performance 16%
• Stoichiometry 16%
• Fuel Cell 16%
• X Ray Diffraction 16%
• Low Temperature 16%
• Atomic Force Microscopy 16%
• Silicon Nitride 16%
• Zirconium Dioxide 16%
• Zirconia 16%
• Maximum Power Density 16%
• Order of Magnitude 16%
• Electrode-electrolyte Interface 16%
• Exchange Current Density 16%
• Distilled Water 16%
• Tetrakis 16%
• Yttrium 16%
• Oxide Ion Conductor 16%
• Grain Structure 16%
• Nanometre 16%
• Compositional Analysis 16%
• Platinum Electrode 16%
• Electrode Kinetics 16%
• Pulse Ratio 16%
• Amorphous Si 16%
• Porous Platinum 16%
• Diffraction Force 16%
• Low Concentration Electrolyte 16%
• Yttria Content 16%
• Polycrystalline Films 16%
• Electrolyte Resistance 16%

Material Science

• Oxide Compound 100%
• Film 100%
• Yttria Stabilized Zirconia 100%
• Density 40%
• Thin Films 20%
• Conductor 20%
• X-Ray Photoelectron Spectroscopy 20%
• X-Ray Diffraction 20%
• Oxidant 20%
• Platinum 20%
• Electrolyte 20%
• Yttrium 20%
• Crystal Microstructure 20%
• Zirconium 20%
• Yttrium Oxide 20%
• Electrode Kinetics 20%
• Crystal Structure 20%

Engineering

• Solid Oxide Fuel Cell 100%
• Atomic Layer Deposition 100%
• Yttria-Stabilized Zirconia 100%
• Thin Films 16%
• Polycrystalline 16%
• Low-Temperature 16%
• Ray Diffraction 16%
• Nanometre 16%
• Maximum Power Density 16%
• Exchange Current Density 16%
• Ray Photoelectron Spectroscopy 16%
• Atomic Force Microscopy 16%
• Electrolyte Interface 16%
• Platinum Electrode 16%
• Oxide-Ion Conductor 16%
• Porosity 16%
• Fuel Cell 16%
• Reaction Stoichiometry 16%