Issue 1, 2022

Honeycomb-like carbon with doping of a transition-metal and nitrogen for highly efficient zinc–air battery and zinc-ion battery

Abstract

The aqueous zinc-based batteries such as the Zn–air battery and the Zn-ion battery, featured with low-cost, high safety, high specific capacity and environmental-friendliness, have attracted intensive interest for their energy storage capability. For high performance zinc-based batteries, electrocatalysts with good conductivity, convenient mass transfer path and adequate accessible active sites are required. Herein, the fabrication of transition-metal/nitrogen co-doped honeycomb-like carbon materials with a hierarchical porous structure using a freeze-drying and one-step pyrolysis method is described. The as-prepared FeZnN–C is used as the cathode material of the zinc–air battery, which displays a high peak power density of 257 mW cm−2, a superior discharging voltage platform of about 1.36 V and a large specific capacity of 785 mA h gZn−1. The prepared Zn/ZnN–C was used as the anode of a Zn-ion battery which exhibits great cycle stability and a high charging/discharge rate. This work provides a novel and simple method for the construction of highly efficient electrocatalysts with hierarchical macro–meso–micro-porous structure and multi-active sites, which could be used for potential applications involving aqueous zinc-based batteries.

Graphical abstract: Honeycomb-like carbon with doping of a transition-metal and nitrogen for highly efficient zinc–air battery and zinc-ion battery

Supplementary files

Article information

Article type
Paper
Submitted
13 Sep 2021
Accepted
13 Nov 2021
First published
15 Nov 2021

Sustainable Energy Fuels, 2022,6, 188-196

Honeycomb-like carbon with doping of a transition-metal and nitrogen for highly efficient zinc–air battery and zinc-ion battery

Q. Huang, S. Zhuang, X. You, J. Zhang, A. Xie, Y. Chen, Y. Tang, Y. Chen, M. Shao, X. J. Yang and P. Wan, Sustainable Energy Fuels, 2022, 6, 188 DOI: 10.1039/D1SE01427G

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