一种独特的铁-氮配位体系，可实现氧向超氧化物的转化，用于高效且选择性的光催化碳-氢键活化。

A Unique Fe-N Coordination System Enabling Transformation of Oxygen into Superoxide for Photocatalytic CH Activation with High Efficiency and Selectivity.

作者信息

Xiao Xudong, Ruan Zhoushilin, Li Qi, Zhang Liping, Meng Huiyuan, Zhang Qun, Bao Hongliang, Jiang Baojiang, Zhou Jing, Guo Chuanyu, Wang Xiaolei, Fu Honggang

机构信息

Key Laboratory of Functional Inorganic Material Chemistry, Ministry of Education of the People's Republic of China, Heilongjiang University, Harbin, Heilongjiang, 150080, China.

Hefei National Laboratory for Physical Sciences at the Microscale, Department of Chemical Physics, Synergetic Innovation Center of Quantum Information and Quantum Physics, University of Science and Technology of China, Hefei, Anhui, 230026, P. R. China.

出版信息

Adv Mater. 2022 Jul;34(27):e2200612. doi: 10.1002/adma.202200612. Epub 2022 Jun 2.

DOI:10.1002/adma.202200612

PMID:35543386

Abstract

Selective oxidation of CH bonds is one of the most important reactions in organic synthesis. However, activation of the α-CH bond of ethylbenzene by use of photocatalysis-generated superoxide anions (O ) remains a challenge. Herein, the formation of individual Fe atoms on polymeric carbon nitride (CN), that activates O to create O for facilitating the reaction of ethylbenzene to form acetophenone, is demonstrated. By utilizing density functional theory and materials characterization techniques, it is shown that individual Fe atoms are coordinated to four N atoms of CN and the resultant low-spin Fe-N system (t e ) is not only a great adsorption site for oxygen molecules, but also allows for fast transfer of electrons generated in the CN framework to adsorbed O , producing O . The oxidation reaction of ethylbenzene triggered by O ions turns out to have a high conversion rate of 99% as well as an acetophenone selectivity of 99%, which can be ascribed to a novel reaction pathway that is different from the conventional route involving hydroxyl radicals and the production of phenethyl alcohol. Furthermore, it possesses great potential for other CH activation reactions besides ethylbenzene oxidation.

摘要

碳氢键的选择性氧化是有机合成中最重要的反应之一。然而，利用光催化产生的超氧阴离子（O ）来活化乙苯的α-碳氢键仍然是一个挑战。在此，展示了在聚合氮化碳（CN）上形成单个铁原子，其活化O 以生成O ，从而促进乙苯反应生成苯乙酮。通过利用密度泛函理论和材料表征技术表明，单个铁原子与CN的四个氮原子配位，所得的低自旋Fe-N 体系（t e ）不仅是氧分子的良好吸附位点，而且还允许在CN框架中产生的电子快速转移到吸附的O 上，生成O 。由O 离子引发的乙苯氧化反应具有99%的高转化率以及99%的苯乙酮选择性，这可归因于一种不同于涉及羟基自由基的传统途径和苯乙醇生成的新型反应途径。此外，除了乙苯氧化之外，它在其他碳氢键活化反应中也具有巨大潜力。

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一种独特的铁-氮配位体系，可实现氧向超氧化物的转化，用于高效且选择性的光催化碳-氢键活化。

A Unique Fe-N Coordination System Enabling Transformation of Oxygen into Superoxide for Photocatalytic CH Activation with High Efficiency and Selectivity.

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