Effect of COF linkage isomerism on photocatalytic hydrogen evolution performance†

IF 6 2区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Materials Chemistry Frontiers Pub Date : 2023-09-01 DOI:10.1039/D3QM00807J
Mingcai Zhang, Xuan Wu, Yangbin Xie, Xiaolong Hao, Qinghao Wang, Yongqing Zhao, Jincai Wu and Xiaobo Pan
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Abstract

Covalent organic frameworks (COFs) have attracted much attention recently as potential photocatalysts for the hydrogen evolution reaction (HER). Linkage isomerism in COFs usually has an important effect on their physicochemical properties. However, the effect of linkage isomerism on the photocatalytic HER performance has been rarely studied. Herein, a pair of COFs with isomeric imine bonds was synthesized, and thus a pair of isomeric amide materials was obtained by oxidation. The photocatalytic HER experiments demonstrated that the photocatalytic HER rates of the isomeric imine COFs were 110.6 and 4.8 μmol h−1, respectively, while those of the amide materials were 2.1 μmol h−1 and negligible, respectively. This indicates that linkage isomerism does have a significant impact on the photocatalytic HER performance. The main reason for this effect is that linkage isomerism leads to prominent differences in light absorption, charge carrier separation and transport, and interfacial reactivity of the two pairs of isomeric materials. Evidently, this work provides a new strategy for designing high-performance COF catalysts.

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COF键异构对光催化析氢性能的影响†
共价有机骨架(COFs)作为潜在的析氢反应(HER)光催化剂,近年来备受关注。COFs中的键异构通常对其物理化学性质有重要影响。然而,连接异构体对光催化HER性能的影响很少被研究。本文合成了一对具有异构亚胺键的COFs,从而通过氧化获得了一对异构酰胺材料。光催化HER实验表明,同分异构亚胺COFs的光催化剂HER率分别为110.6和4.8μmol h−1,而酰胺材料的光催化剂HER率分别为2.1μmol h–1,可忽略不计。这表明连接异构确实对光催化HER性能有显著影响。产生这种效应的主要原因是,键异构导致两对异构材料在光吸收、电荷载流子分离和传输以及界面反应性方面存在显著差异。显然,这项工作为设计高性能COF催化剂提供了一种新的策略。
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来源期刊
Materials Chemistry Frontiers
Materials Chemistry Frontiers Materials Science-Materials Chemistry
CiteScore
12.00
自引率
2.90%
发文量
313
期刊介绍: Materials Chemistry Frontiers focuses on the synthesis and chemistry of exciting new materials, and the development of improved fabrication techniques. Characterisation and fundamental studies that are of broad appeal are also welcome. This is the ideal home for studies of a significant nature that further the development of organic, inorganic, composite and nano-materials.
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