基于共价有机框架的超分子体系中多个杂原子-氢键桥连电子传输用于光还原CO

Multiple Heteroatom-Hydrogen Bonds Bridging Electron Transport in Covalent Organic Framework-Based Supramolecular System for Photoreduction of CO.

作者信息

He Yajun, Zhao Yun, Wang Xiaofeng, Liu Zheyuan, Yu Yan, Li Liuyi

机构信息

Key Laboratory of Eco-materials Advanced Technology, College of Materials Science and Engineering, Fuzhou University, Fuzhou, 350108, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2023 Aug 1;62(31):e202307160. doi: 10.1002/anie.202307160. Epub 2023 Jun 27.

DOI:10.1002/anie.202307160

PMID:37280761

Abstract

Supramolecular systems consisting of covalent organic frameworks (COFs) and Ni complex are designed for robust photocatalytic reduction of CO . Multiple heteroatom-hydrogen bonding between the COF and Ni complex is identified to play a decisive role in the photoexcited electron transfer across the liquid-solid interface. The diminution of steric groups on COF or metal complex can optimize catalytic performance, which is more attributable to the enhanced hydrogen-bond interaction rather than their intrinsic activity. The photosystem with relatively strong strength of hydrogen bonds exhibits remarkable photocatalytic CO -to-CO conversion, far superior to photosystems with supported atomic Ni or metal complex alone in the absence of hydrogen-bond effect. Such heteroatom-hydrogen bonds bridging electron transport pathway confers supramolecular system with high photocatalytic performance, providing an avenue to rationally design efficient and steadily available photosystems.

摘要

由共价有机框架（COF）和镍配合物组成的超分子体系被设计用于高效光催化还原CO 。已确定COF与镍配合物之间的多重杂原子-氢键在光激发电子跨液-固界面转移中起决定性作用。COF或金属配合物上空间基团的减少可优化催化性能，这更多归因于氢键相互作用的增强而非其固有活性。具有相对较强氢键强度的光系统表现出显著的光催化CO 到CO的转化，远优于在没有氢键效应时单独负载原子镍或金属配合物的光系统。这种桥接电子传输途径的杂原子-氢键赋予超分子体系高光催化性能，为合理设计高效且稳定可用的光系统提供了一条途径。

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基于共价有机框架的超分子体系中多个杂原子-氢键桥连电子传输用于光还原CO

Multiple Heteroatom-Hydrogen Bonds Bridging Electron Transport in Covalent Organic Framework-Based Supramolecular System for Photoreduction of CO.

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