Abstract

The development of highly active noble-metal-free nitrogen-doped carbon materials is of great significance to the industrial applications of renewable and sustainable energy. In this paper, core-shell structural carbon materials composed of nitrogen-doped carbon-shell-encapsulated iron–cobalt mixed metal carbides were obtained through pyrolysis of metal organic framework precursors. Metallic (Co, Fe) carbide nanoclusters embedded in nitrogen-doped hollow carbon spheres were obtained after most of the mixed metal cores were removed by heated acid etching. The composites of carbon materials exhibited significant electrocatalytic activities toward the hydrogen evolution and oxygen reduction reactions. Hollow carbon spheres were obtained under optimized conditions for the hydrogen evolution reaction with overpotentials of 180 mV at a current density of 10 mA·cm–2 and Tafel slope of 90 mV·dec–1 in acidic media. The hollow carbon spheres also exhibited favorable activities toward oxygen reduction with a rather ...

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