Regulating the N Coordination Environment of Co Single-Atom Nanozymes for Highly Efficient Oxidase Mimics

Li, Zhe; Liu, Fangning; Chen, Chuanxia; Jiang, Yuanyuan; Ni, Pengjuan; Song, Ningning; Hu, Yang; Xi, Shibo; Liang, Minmin; Lu, Yizhong

doi:10.1021/acs.nanolett.2c04944

articleNano LettersFeb 3, 2023Closed access

Regulating the N Coordination Environment of Co Single-Atom Nanozymes for Highly Efficient Oxidase Mimics

ZLZhe Li FLFangning Liu CCChuanxia Chen YJYuanyuan JiangPNPengjuan Ni

Beijing Institute of Technology · University of Jinan · +3 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Single-atom catalysts with well-defined atomic structures and precisely regulated coordination environments have been recognized as potential substitutes for natural metalloenzymes. Inspired by the metal coordination structure of natural enzymes, we show here that the oxidase-like activity of single-atom Co catalysts greatly depends on their local N coordination around the Co catalytic sites. We synthesized a series of Co single-atom catalysts with different nitrogen coordination numbers (Co–Nx(C), x = 2, 3, and 4) and demonstrated that the oxidase-like activity of single-atom Co catalysts could be effectively tailored by fine-tuning the N coordination. Among the studied single-atom Co catalysts, the Co–N3(C)…

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291

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FWCI: 26.41
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Authors

10

ZL
Zhe Li
Beijing Institute of Technology, University of Jinan
FL
Fangning Liu
University of Jinan
CC
Chuanxia Chen
University of Jinan
YJ
Yuanyuan Jiang
University of Jinan
PN
Pengjuan Ni
University of Jinan

Topics & keywords

Topics

Keywords

Chemistry
Atom (system on chip)
Coordination complex
Nanotechnology
Crystallography
Materials science
Metal
Computer science

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