Hybrid Zeolitic Imidazolate Framework‐Derived Co3Mo/Mo2C Heterostructure for Enhanced Oxygen Evolution Reaction

Abstract Constructing heterostructures is an efficient strategy to develop high‐performance and robust electrocatalysts for oxygen evolution reaction (OER). Herein, an ion‐impregnation method and an environmentally friendly in situ carbonization strategy are successively employed to fabricate a novel Co 3 Mo/Mo 2 C heterostructure anchored on nitrogen‐doped carbon (Co 3 Mo/Mo 2 C@NC). Thanks to the formation of heterostructure, the obtained Co 3 Mo/Mo 2 C@NC exhibits an enhanced catalytic performance toward OER with a low overpotential (282 mV @ 10 mA cm −2 , 322 mV @ 50 mA cm −2 , and 355 mV @100 mA cm −2 ) and robust stability (100 mA cm −2 for 200 h) in alkaline media. Detailed experimental results combined with theoretical calculations reveal the formation of a Co 3 Mo/Mo 2 C heterojunction interface can decrease the energy barrier of the rate‐determining step for intermediates during the OER process, thereby inherently enhancing the OER performance. This work presents a rational synthetic route for designing high‐performance heterostructures for energy conversion technologies.