Fabrication and Fuel-Cell Properties of Sm-Doped CeO2 Electrolyte Film by Electrophoretic Deposition

Satoshi Nakayama; Masaru Miyayama

doi:10.4028/www.scientific.net/KEM.350.175

Paper Titles

Behavior of γ-MnO₂ Containing TiB₂ as a Cathode in Aqueous Lithium Hydroxide Electrolyte Battery
p.159

Superconductivity of Layered Perovskite Synthesized by Soft Chemistry
p.163

Oxygen Reduction Electrode Properties of Pyrochlores Ln₂Ru₂O_7-δ(Ln=Pr, Nd, Sm) in Aqueous Solutions
p.167

Effects of the Substitution of Β-Site Ion on Oxygen Reduction Electrode Properties of Pb₂Ru₂O_{7- δ} in Aqueous Solutions
p.171

Fabrication and Fuel-Cell Properties of Sm-Doped CeO₂ Electrolyte Film by Electrophoretic Deposition
p.175

Compositions and Oxygen Conductivity of BaCeO₃-Based Electrolytes
p.179

Oxygen Reduction Electrode Properties of the Ba(Ce, Gd, Ru)O_3-δOxides in Alkaline Aqueous Solution
p.183

Lithium Intercalation Properties of Porous Anatase TiO₂ with Bimodal Pore Size Distribution
p.187

Lithium Battery Properties of LiNi_0.5Mn_1.5O₄ Powders Synthesized by Internal Combustion Type Spray Pyrolysis Apparatus Using Gas Burner
p.191

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Fabrication and Fuel-Cell Properties of Sm-Doped CeO₂ Electrolyte Film by Electrophoretic Deposition

Abstract:

Electrolyte films of Ce0.8Sm0.2O1.9 (SDC) were prepared on NiO-SDC anode substrates by electrophoretic deposition (EPD) for intermediate-temperature solid oxide fuel cells (SOFCs). Dense and crack-free films were fabricated by cofiring the films and substrates. A cell using an SDC electrolyte film with a La0.6Sr0.4CoO3-δ cathode exhibited a power density of 281 mW/cm2 and an electrolyte resistance of 0.064 cm2 at 600°C. The film formation of SDC by EPD was found effective in decreasing the electrolyte resistance.