One-Step Scalable Production of Co1− x S/Graphene Nanocomposite as High-Performance Bifunctional Electrocatalyst.

Herein, a strategy for one-step fabrication of cobalt sulfide/graphene (Co1− xS/G) nanocomposite as bifunctional catalyst for oxygen catalysis is demonstrated. The one-step fabrication method involves annealing the mixture of cobalt salt, thioacetamide, and graphene oxide with the assistance of small amount of glycol without any further purification steps. The Co1− xS/G shows a morphology with small-sized Co1− xS nanocrystals strongly and uniformly anchored on the graphene surface. Systematically electrochemical studies demonstrate that the Co1− xS/G with optimized components shows superior catalytic activities toward oxygen reduction and oxygen evolution, which are comparable or even superior to commercial Pt/C and Ir/C catalysts. As a result, the potential hysteresis of Co1− xS/G is the lowest among all the samples. The facile operability of the fabrication method and the high bifunctional activity of Co1− xS/G may pave one practical way for broad applications including fuel cell, metal-O2 battery, and water electrolysis. [ABSTRACT FROM AUTHOR]