A hierarchically porous Fe-N-C synthesized by dual melt-salt-mediated template as advanced electrocatalyst for efficient oxygen reduction in zinc-air battery

Wang D. ¹Yang P. ¹Du L. ¹Lu X. ¹Li R. ¹Xu H. ¹Zhang J. ¹An M. ¹Liu L.²

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作者信息

1. MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage School of Chemistry and Chemical Engineering Harbin Institute of Technology
2. College of Environmental and Chemical Engineering Heilongjiang University of Science and Technology
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Abstract

? 2021 Elsevier B.V.The reasonable design of porous structures is important but usually overlooked for nonprecious metal ORR catalysts. In this study, a facile dual melt-salt-mediated templating method is developed to prepare a Fe-N-C catalyst with tailored porous framework. The ZnCl2 and NaCl are employed to construct abundant micropores and promote the transformation of partial micropores to mesopores, respectively, reasonably forming a 3D hierarchically porous framework. The catalyst demonstrates a satisfactory surface area (1605 m2/g), promoting mass transport and exposure of FeN4 sites. Interestingly, the dual melt-salt templates avoid rapid loss of nitrogen during pyrolysis, thus enhancing Fe-N4 active center density. Therefore, the obtained Fe-N-C material presents outstanding ORR performance in both alkaline and acid media, as well as good stability. The advances of this catalyst are further proved in liquid and solid-state Zn-air battery, with nice discharge stability and high peak power densities.

Key words

Dual melt-salt-mediated templating/Fe-N4/Hierarchically porous structure/Oxygen reduction reaction/Zn-air battery

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出版年

2022

Applied Catalysis

ISSN：0926-3373

被引量55

参考文献量50

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