Regulating the Coordination of Co sites in Co3O4/MnO2 Compounding for Facilitated Oxygen Reduction Reaction

Abstract Binary transition metal oxides as a promising oxygen reduction reaction (ORR) catalyst have received significant attention. However, their exact reaction mechanisms are often too complex to be discussed. Herein, novel Co−Mn composites with a well‐defined nanostructure were developed for understanding the role of each component. The growth pattern of cobalt oxide and the effects of the coordination environment of Co sites during growth on the overall activity were investigated. Based on experimental and density functional theory studies, it was found that the decaying coordination number directly affected the expression of crystal planes of cobalt oxide, which further had a great influence upon limiting current density of Co−Mn catalysts. The cuboid‐Co/Mn catalyst exhibited outstanding limiting current density and showed good stability, related to more highly active (110) planes exposed in Co 3 O 4 . These provided many references for the preparation of related nonprecious catalysts in various domains.