Abstract

The cermet anodes for solid oxide fuel cells (SOFCs) usually consist of Ni and an oxygen ion conductor such as yttria-stabilized zirconia (YSZ) and doped ceria (DCO). In this work, Ni–LnO x cermets (Ln = La, Ce, Pr, Nd, Sm, Eu, Gd), in which LnO x is not an oxygen ion conductor, are primarily investigated as the anodes for intermediate-temperature SOFCs. The electrochemical performances of the Ni–LnO x anodes are characterized using single SOFCs with Sm 0.5Sr 0.5CoO 3 composite cathodes and Gd 0.1Ce 0.9O 1.95 electrolytes. When humidified H 2 is used as the fuel and ambient air as the oxidant, Ni–CeO 2 and Ni–Gd 2O 3 anodes have exhibited very high performance, which is comparable to that of Ni–DCO anodes, the state-of-the-art electrodes for intermediate-temperature SOFCs with ceria electrolytes. The performance is further improved by increasing the anode porosity; peak power density up to 730 mW cm −2 and total interfacial polarization resistance down to 0.12 Ω cm 2 are achieved for Ln = Sm, Eu, Ce, and Gd. The low interfacial polarization resistance and high power densities might be related to the high catalytic activity of LnO x and the optimized microstructures by increasing the porosity. These results suggest a promising alternative to the conventional anodes for SOFCs.

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