Fabrication and Performance of GDC-Impregnated (La,Sr)MnO[sub 3] Cathodes for Intermediate Temperature Solid Oxide Fuel Cells
2005; Institute of Physics; Volume: 152; Issue: 7 Linguagem: Inglês
10.1149/1.1928167
ISSN1945-7111
Autores Tópico(s)Electronic and Structural Properties of Oxides
ResumoHigh-performance (LSM) cathodes for intermediate temperature solid oxide fuel cells were fabricated by the ion impregnation of oxygen ion conducting Gd-doped (GDC) oxide. The microstructure of the GDC-impregnated LSM electrode was characterized by the uniform dispersion of very fine GDC particles in the LSM porous framework. The particle size of the impregnated GDC phase was in the range of . Uniform distribution of the nanosized ionic conducting GDC phase significantly enhanced the electrode activities for the reduction reaction. In the case of the GDC-impregnated LSM electrode, electrode polarization resistance was at , 56 times lower than that of the pure LSM at the same temperature. GDC-impregnated LSM electrode showed lower activation energy and low reaction order with respect to the partial pressure of oxygen, as compared to that on the pure LSM electrodes. The results indicate that GDC impregnation has significant electrocatalytic effect on the reduction reactions on the LSM electrodes.
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