Boosting photocatalytic H2 evolution on UIO-66-NH2/covalent triazine–based frameworks composites by constructing a covalent heterojunction

被引:0
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作者
Shiwen Dong
Xuan Liu
Xianxian Kong
Feilong Dong
Yan Yu
Lizhang Wang
Da Wang
Zhiqiao He
Shuang Song
机构
[1] Zhejiang University of Technology,Key Laboratory of Microbial Technology for Industrial Pollution Control of Zhejiang Province, College of Environment
[2] Ningbo University,Ningbo Key Laboratory of Agricultural Germplasm Resources Mining and Environmental Regulation, College of Science and Technology
[3] China University of Mining and Technology,School of Environment Science and Spatial Informatics
来源
Environmental Science and Pollution Research | 2023年 / 30卷
关键词
Metal-organic frameworks; Covalent organic frameworks; Photocatalysis; Post-synthetic covalent modification; Hydrogen evolution;
D O I
暂无
中图分类号
学科分类号
摘要
Metal-organic frameworks (MOFs) and covalent organic frameworks (COFs) have been proved as efficient catalysts for photocatalytic hydrogen (H2) evolution, thanks to their tunable functionalities, permanent porosity, excellent visible light response, and physicochemical stability. Herein, a series of photocatalysts (termed NUBC) was fabricated by loading different amounts of Zr-UiO-66-NH2 (NU) onto a benzoic acid–modified covalent triazine–based framework (BC) based on post-synthetic covalent modification. The resulting NUBC catalysts exhibited a type-II Z-scheme heterojunction structure formed via the amide covalent bonds between the amine groups on NU and carboxyl groups on BC. The optimal loading of NU on BC is 30 wt.% (30NUBC) and the corresponding photocatalytic H2 evolution rate was 378 μmol h−1 g−1, almost 445 and 2 times than that of NU and BC, respectively. The synergistic effect between the type-II Z-scheme heterojunctions and amide bonds was conducive to boosting visible light harvesting and facilitating charge transportation and separation. Furthermore, the prepared NUBC catalysts show great reusability and stability. Overall, this work sheds light on the design of novel MOF/COF hybrid materials and provides a systematic exploration of their photocatalytic H2 evolution properties.
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页码:111039 / 111050
页数:11
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