CoS2/N,S co-doped mesoporous carbon with 3D micro-nano crosslinked structure as efficient bifunctional oxygen electrocatalysts for zinc-air batteries

This work describes a bifunctional oxygen catalyst made of cobalt disulfide encapsulated in N,S co-doped mesoporous carbon with a novel three-dimensional micro-nano crosslinking structure. The proposed composite materials exhibit promising oxygen electrocatalytic activity and stability. The composite assembled rechargeable zinc-air battery can achieve a high power density of 208.9 mW/cm2, and can be stably cycled for more than 160 h. Additionally, the all-solid zinc-air battery assembled with the electrocatalyst also performs admirably. The micro-nano crosslinking and high porosity structure, as well as the large number of active sites generated by the synergy of N,S doping and the close interface between carbon matrix and CoS2, contribute to the composite's exceptional electrochemical performance. This study's rational strategy lays the path for the development of other high-performance bifunctional electrocatalysts.