Mesoporous waffle-like N-doped carbon with embedded Co nanoparticles for efficiently electrocatalytic oxygen reduction and evolution

Rational design and facile preparation of high-performance carbon-based eletrocatalysts for both oxygen reduction and evolution reactions (ORR and OER) is crucial for practical applications of rechargeable zinc-air batteries. Inspired by the fact that the metallic Co catalysis on the formation of carbon nanotubes (CNTs), this work develops a facial compression-pyrolysis route to synthesize a mesoporous waffle-like N -doped carbon framework with embedded Co nanoparticles (Co@pNC) using a Co metal–organic framework and melamine as precursors. The unique porous waffle-like carbon framework is built up of interwoven N -doped CNTs and graphene nanosheets , which offers abundant catalytic-active sites and rapid diffusion channels for intermediates and electrolyte. The optimized Co@pNC shows excellent bifunctional ORR/OER electrocatalytic activity in alkaline media with a half-wave potential ( E 1/2 ) of 0.85 V for ORR and a small potential gap of 0.70 V between ORR E 1/2 and OER potential at 10 mA cm −2 . Its assembled battery exhibits a peak power density up to 150.3 mW cm −2 , an energy density of 928 Wh kg Zn -1 and superb rate capability. It highlights a facile component and architecture strategy to design high-performance carbon-based eletrocatalysts.