Methanol-tolerant MoN electrocatalyst synthesized through heat treatment of molybdenum tetraphenylporphyrin for four-electron oxygen reduction reaction

Abstract A novel non-noble electrocatalyst with an average particle size of approximately 4 nm was prepared by heat-treating carbon-supported molybdenum tetraphenylporphyrin in a flow NH 3 atmosphere. The effects of heating time and temperature on its electrocatalystic properties were investigated. The samples obtained were characterized by X-ray diffraction, transmission electron microscopy, X-ray photoelectron spectroscopy, and EDX. The results show that the synthesized catalyst has the same composition as that of MoN. This carbon-supported catalyst displays a strong activity towards oxygen reduction reaction (ORR) and a methanol-tolerant property. The catalyzed ORR proceeds by an approximate four-electron reduction pathway from O 2 directly to H 2 O.