Long-term electrochemical characterization of novel Sr2FeMo0.65Ni0.35O6-δ fuel electrode for high-temperature steam electrolysis in solid oxide cells

The present study focuses on the highly catalytic double-perovskite Sr2FeMo0.65Ni0.35O6-delta (SFMNi) fuel electrode material for Solid Oxide Electrolysis Cells (SOECs). The electrolyte-supported single button cells with the highly active SFMNi fuel electrode were electrochemically characterized between 900 degrees C down to 750 degrees C in steam and co-electrolysis conditions using DC- and AC-techniques. The cells achieved current densities of -1.62 A cm(-2) and -1.74 A cm(-2) at 900 degrees C under steam and co-electrolysis conditions, respectively, exceeding the performance of cells with Ni-8YSZ fuel electrodes by similar to 65-79 % and Ni-GDC fuel electrodes by 24-28 %. The post-test SEM-EDX analyses of the as-prepared and tested cells' cross-section showed increased pore formation and particle growth of the SFMNi fuel electrode after testing in the humidified atmosphere for 500 h.