LAUSR

Overcoming the sluggish activity of cathode materials is critical to realizing the wide-spread application of intermediate-temperature solid oxide fuel cells. Herein, a new way is reported to tune the performance of perovskitetype materials as oxygen reduction electrodes by embedding anions (F-) in oxygen sites. The obtained perovskite oxyfluorides SrFeO(3-sigma-delta)dF(sigma) and SrFe0.9Ti0.1O3-sigma-delta F sigma (sigma = 0.05 and 0.10) show improved electrocatalytic activity compared to their parent oxides, achieving area specific resistance values of 0.875, 0.393, and 0.491 Omega cm(2) for SrFeO3-delta, SrFeO2.95-delta F0.05, and SrFeO2.90-delta F0.10, respectively, at 600 degrees C in air. Such improved performance is a result of the improved bulk diffusion and surface exchange properties due to anion doping. Moreover, favorable stability in performance is also demonstrated for the F- anion-doped perovskites as oxygen reduction electrodes at 650 degrees C for a test period of approximate to 200 h. A combination of anion doping and cation doping may provide a highly attractive strategy for the future development of cathode materials.