Comparative study on the electrochemical performance of Sr(Ti0.3Fe0.7)O3-δ fuel electrode in different fuel gases for solid oxide electrochemical cells.

Sr(Ti 1-x Fe x)O 3−δ (STF) perovskite has been developed as one of the alternatives to Nickel-base fuel electrodes for solid oxide electrochemical cells (SOCs) that can provide good tolerance to redox cycling and fuel impurities. Recent results on STF fuel electrodes present excellent electrochemical performance and outstand stability both under H 2 fuel cell mode and H 2 O electrolysis mode, however, the electrochemical characteristics in other fuel gases, such as CO, CO–H 2 mixture, CH 4 , and CO–CO 2 mixture have not been investigated. Herein, we report the electrochemical performance of Sr(Ti 0.3 Fe 0.7)O 3−δ fuel electrode on La 0.8 Sr 0.2 MnO 3−δ -Zr 0.92 Y 0.16 O 2−δ (LSM-YSZ) oxygen electrode supported SOCs with thin YSZ electrolyte using different fuel gases. At 800 °C, the peak power density slightly decreased from 0.9 W/cm2 in wet H 2 to 0.68 W/cm2 in wet CO under fuel cell mode. However, the cell only showed a peak power density of 0.27 W/cm2 at 800 °C in wet CH 4 , reaching 0.75 W/cm2 at 850 °C, when the open-circuit voltage increased from 0.9 V to 1.02 V. STF fuel electrode exhibited much worse CO 2 electrolysis performance than steam electrolysis, especially in high CO 2 concentration due to the increased ohmic resistance and electrode polarization resistance. [ABSTRACT FROM AUTHOR]