Issue 1, 2019

Coupling FeNi alloys and hollow nitrogen-enriched carbon frameworks leads to high-performance oxygen electrocatalysts for rechargeable zinc–air batteries

Abstract

A dual-template strategy for facile preparation of a bifunctional oxygen electrocatalyst for high-performance rechargeable zinc–air batteries has been reported. Coupling FeNi alloys with hollow nitrogen-doped carbon frameworks results in exceptionally high electrocatalytic oxygen reduction and evolution activities. In 1 M KOH, the resulting new material exhibits a superior oxygen evolution activity with a low overpotential of 250 mV to deliver 10 mA cm−2 current density, at which the obtained oxygen reduction performance is also comparable to that of commercial Pt/C and the half-wave potential reaches as high as 0.87 V. As a result, the bifunctional oxygen electrocatalysis performance thus obtained (0.61 V, 1 M KOH) ranks among the best of non-precious oxygen electrocatalysts. Using this new catalyst as an air electrode, the as-prepared rechargeable Zn–air battery shows a high current density of 215 mA cm−2 at a voltage of 1.0 V, large peak power density (310 mW cm−2), high potential efficiency (64.7% at 10 mA cm−2) and prolonged operation durability. This approach provides a means to control the surface features, thereby tuning the catalytic properties of the material, and may open up new possibilities for the rational design and synthesis of new materials for electrochemical applications.

Graphical abstract: Coupling FeNi alloys and hollow nitrogen-enriched carbon frameworks leads to high-performance oxygen electrocatalysts for rechargeable zinc–air batteries

Supplementary files

Article information

Article type
Paper
Submitted
20 Jul 2018
Accepted
05 Sep 2018
First published
06 Sep 2018

Sustainable Energy Fuels, 2019,3, 136-141

Author version available

Coupling FeNi alloys and hollow nitrogen-enriched carbon frameworks leads to high-performance oxygen electrocatalysts for rechargeable zinc–air batteries

H. Wu, M. Zeng, Z. Li, X. Zhu, C. Tian, C. Xia, L. He and S. Dai, Sustainable Energy Fuels, 2019, 3, 136 DOI: 10.1039/C8SE00362A

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