Imaging of oxygen transport at SOFC cathode/electrolyte interfaces by a novel technique

Abstract

Oxygen transport was examined around the O 2/cathode/yttria-stabilized zirconia (YSZ) interfaces in solid oxide fuel cells (SOFCs). To visualize the kinetics of oxygen transport, isotope oxygen exchange ( 16 O / 18 O exchange) and secondary ion mass spectrometry analysis (SIMS) were adopted for La 0.85Sr 0.15MnO 3-mesh and gold (Au)-mesh cathodes. The mesh cathode surfaces promoted oxygen adsorption and surface oxygen exchange. Oxygen bulk diffusion in the mesh cathode was observed only at the La 0.85Sr 0.15MnO 3-mesh. The active sites for oxygen incorporation were compared at the YSZ surfaces after removing the mesh cathodes. The La 0.85Sr 0.15MnO 3-mesh/YSZ interface can be the active site for oxygen incorporation as well as the triple phase boundary (TPB). On the other hand, the Au/YSZ interface showed low 18 O concentration, and the active sites were limited to the TPB lines. Most active sites for oxygen incorporation were the O 2/cathode/YSZ interface (TPB) for La 0.85Sr 0.15MnO 3-mesh and Au-mesh from the line analysis of the SIMS images. The expansion of the oxygen incorporation active site around the TPB was discussed on the basis of SIMS imaging analysis and electrochemical analysis.