Peripheral NV-induced electron transfer to Fe1 single atoms for highly efficient O2 activation

IF 15.7 1区化学 Q1 CHEMISTRY, APPLIED

Chinese Journal of Catalysis Pub Date : 2025-05-01 DOI:10.1016/S1872-2067(25)64651-1

Fenli Liu , Man Yang , Jianglin Duan , Zhiyu Yin , Mingyang Shi , Fuqing Chen , Huifeng Xiong , Xin Liu , Wengang Liu , Qixing Xia , Shaodong Sun , Dan Feng , Haifeng Qi , Yong Qin , Yujing Ren

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引用次数: 0

Abstract

Catalytic oxidation plays a crucial role in chemical industry, in which the utilization of abundant and environmental-friendly oxygen (O₂) as oxidant aligns with sustainable development principles in green chemistry. However, the intrinsic inertness of ground-state O₂ molecule poses a long-standing challenge in developing an efficient non-noble metal-based catalyst. Herein, inspired by the electron transfer process in respiratory chain, we engineered long-range N_V to mediate Fe₁ center for O₂ activation in aerobic oxidation. Combined in/quasi-situ spectroscopic characterizations and control experiments suggest the Fe₁ site efficiently adsorbs O₂, and the N_V site facilitates electron delocalization to adjacent Fe₁, providing efficient transformation of O₂ to reactive oxygen species that boost oxidation reactions mildly. This Fe₁–N_V single-atom catalyst demonstrates outstanding catalytic performance in aerobic oxidations of alkanes, N-heterocycles, alcohols, and amines under relatively mild conditions. Our findings offer a new perspective for designing high-efficiency heterogeneous catalysts in aerobic oxidations, promising various potential applications.

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外周nv诱导电子转移到Fe1单原子，以实现高效的O2活化

催化氧化在化学工业中起着至关重要的作用，利用丰富的、环境友好的氧作为氧化剂符合绿色化学的可持续发展原则。然而，基态O2分子的固有惰性是开发高效非贵金属催化剂的一个长期挑战。在此，受呼吸链中电子传递过程的启发，我们设计了远程NV来介导有氧氧化中Fe1中心的O2活化。结合原位/准原位光谱表征和控制实验表明，Fe1位点有效吸附O2， NV位点促进电子离域到邻近的Fe1，提供O2向活性氧的有效转化，温和地促进氧化反应。该Fe1-NV单原子催化剂在相对温和的条件下对烷烃、n -杂环、醇和胺的好氧氧化表现出优异的催化性能。我们的发现为设计高效的多相催化剂提供了新的视角，具有多种潜在的应用前景。

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来源期刊

Chinese Journal of Catalysis 工程技术-工程：化工

CiteScore

25.80

自引率

10.30%

发文量

235

审稿时长

1.2 months

期刊介绍： The journal covers a broad scope, encompassing new trends in catalysis for applications in energy production, environmental protection, and the preparation of materials, petroleum chemicals, and fine chemicals. It explores the scientific foundation for preparing and activating catalysts of commercial interest, emphasizing representative models.The focus includes spectroscopic methods for structural characterization, especially in situ techniques, as well as new theoretical methods with practical impact in catalysis and catalytic reactions.The journal delves into the relationship between homogeneous and heterogeneous catalysis and includes theoretical studies on the structure and reactivity of catalysts.Additionally, contributions on photocatalysis, biocatalysis, surface science, and catalysis-related chemical kinetics are welcomed.