Cobalt‐Doped Perovskite‐Type Oxide LaMnO3 as Bifunctional Oxygen Catalysts for Hybrid Lithium–Oxygen Batteries

: Perovskite-type oxides based on rare-earth metals containing lanthanum manganate are promising catalysts for the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) in alkaline electrolyte. Perovskite-type LaMnO3 shows excellent ORR performance, but poor OER activity. To improve the OER performance of LaMnO3 , the element cobalt is doped into perovskite-type LaMnO3 through a sol-gel method followed by a calcination process. To assess electrocatalytic activities for the ORR and OER, a series of LaMn1-x Cox O3 (x=0, 0.05, 0.1, 0.2, 0.3, 0.4, and 0.5) perovskite oxides were synthesized. The results indicate that the amount of doped cobalt has a significant effect on the catalytic performance of LaMn1-x Cox O3 . If x=0.3, LaMn0.7 Co0.3 O3 not only shows a tolerable electrocatalytic activity for the ORR, but also exhibits a great improvement (>200 mV) on the catalytic activity for the OER; this indicates that the doping of cobalt is an effective approach to improve the OER performance of LaMnO3 . Furthermore, the results demonstrate that LaMn0.7 Co0.3 O3 is a promising cost-effective bifunctional catalyst with high performance in the ORR and OER for application in hybrid Li-O2 batteries.