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“Fence” Effect Enabling a Metal–Organic Framework-Derived Single-Atom Co–N–C Catalyst for High-Performance Zn–Air Batteries

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posted on 2024-08-13, 00:29 authored by Jiawei Xia, Le Li, Na Li, Chao Chen, Shilong Zhou, Xingyue Qian, Dafang He, Jingrui Ye, Guangyu He, Haiqun Chen
It offers bright prospects to develop non-Pt group metal (non-PGM) electrocatalysts in the area of energy storage and conversion. Herein, we reported a simple spatial isolation strategy to synthesize Co-based electrocatalysts, using partially substituted Zn atoms in a ZnCo-ZIF precursor. The “fence” effect that originated from the partially substituted Zn atoms can yield a better isolation of Co atoms, achieving selective loading of Co species on nitrogen-doped porous carbon varying from nanoparticles to single atoms. The low boiling point of Zn enables abundant porous structures to the N-doped carbon substrate after pyrolysis. The best performing single-atom Co catalyst (Co-SAs/N–C) exhibits excellent oxygen reduction reaction activity in alkaline media. As an illustration, the rechargeable liquid Zn–air battery incorporating the Co-SAs/N–C catalyst demonstrates a substantial open circuit voltage of 1.49 V, a high specific capacity of 689.3 mAh g–1, and remarkable cycling stability over 200 h. This study paves the way for the strategic development of non-PGM electrocatalysts in battery applications.

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