Abstract
The electrode performance of a single solid‐fuel cell (SOFC) was evaluated using a 500 μm thick (LSGM) as the electrolyte membrane. A doped lanthanum cobaltite, was selected as the cathode material, and a samaria‐doped ceria‐NiO composite powder was used as the anode material. The spray‐pyrolysis method was applied for synthesis of the starting powders of the cathode and anode. In this study, different microstructures of the cathode were obtained by varying the sintering temperature from 950 to 1200°C. High power density (the maximum power density of the cell was about , which is 95% of the theoretical value) of the solid oxide fuel cell at 800°C was achieved. The cell performance showed that, with a proper choice of electrode materials with optimized microstructure and LSGM as the electrolyte, a SOFC operating at temperatures is a realistic goal. © 1999 The Electrochemical Society. All rights reserved.
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