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Facile synthesis of Co, N enriched carbon nanotube and active site identifications for bifunctional oxygen reduction and evolution catalysis

2021; Elsevier BV; Volume: 43; Linguagem: Inglês

10.1016/j.ensm.2021.09.009

2405-8297

Li Song, Haiyu Fan, Tao Wang, Tengfei Xiang, Ming‐Dao Zhang, Chuangang Hu, Wei Zhou, Jianping He,

Fuel Cells and Related Materials

The carbon-based electrocatalyst for rechargeable zinc-air battery not only needs bifunctional activities to oxygen reduction and evolution reactions, but also requires a high graphitization degree to maintain an excellent stability. Herein, a simple and scale-up strategy is developed to synthesize a highly active and stable electrocatalyst ([email protected]) through a solid-state thermal conversion process, derived from a single and easy-to-get precursor (cobaltic Prussian blue analogue). The Co particles trapped inside the tips are the growth sites of the carbon nanotubes and greatly improve the catalytic activity. This kind of special structure helps [email protected] to achieve remarkable bifunctional activities comparable to the noble metal counterparts and superior durability. Interestingly, [email protected] is proved to have no single-atom Co sites on the carbon nanotube. In combination with electrochemical tests, X-ray absorption spectroscopy and theoretical calculations, [email protected] N-C is considered to be the best ORR active site while [email protected] N-C is the best OER active site.