Promoting charge separation by rational integration of a covalent organic framework on a BiVO4photoanode

Bin Gao; Xingyu Yu; Tao Wang; Hao Gong; Xiaoli Fan; Hairong Xue; Cheng Jiang; Kun Chang; Xianli Huang; Jianping He

doi:10.1039/d1cc07047a

Promoting charge separation by rational integration of a covalent organic framework on a BiVO₄photoanode

Bin Gao, Xingyu Yu, Tao Wang, Hao Gong, Xiaoli Fan, Hairong Xue, Cheng Jiang, Kun Chang, Xianli Huang, Jianping He

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

For the first time, covalent organic frameworks (COF-TpPa and COF-TpPaC) are selected to combine with the BiVO4 photoanode through a covalent bond. The heterojunction and covalent connection of COFs and BiVO4 can promote the separation of carriers, and the -CH3 on the benzene ring in COF-TpPaC as an electron donor group can increase the carrier concentration of the photoanode. As a result, the TpPaC/BiVO4 photoanode shows the best performance. This covalent hybridization strategy opens a new insight into the development of COF-modified photoanodes.

Original language	English
Pages (from-to)	1796-1799
Number of pages	4
Journal	Chemical Communications
Volume	58
Issue number	11
DOIs	https://doi.org/10.1039/d1cc07047a
State	Published - 7 Feb 2022
Externally published	Yes

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abstract = "For the first time, covalent organic frameworks (COF-TpPa and COF-TpPaC) are selected to combine with the BiVO4 photoanode through a covalent bond. The heterojunction and covalent connection of COFs and BiVO4 can promote the separation of carriers, and the -CH3 on the benzene ring in COF-TpPaC as an electron donor group can increase the carrier concentration of the photoanode. As a result, the TpPaC/BiVO4 photoanode shows the best performance. This covalent hybridization strategy opens a new insight into the development of COF-modified photoanodes.",

author = "Bin Gao and Xingyu Yu and Tao Wang and Hao Gong and Xiaoli Fan and Hairong Xue and Cheng Jiang and Kun Chang and Xianli Huang and Jianping He",

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T1 - Promoting charge separation by rational integration of a covalent organic framework on a BiVO4photoanode

AU - Gao, Bin

AU - Yu, Xingyu

AU - Wang, Tao

AU - Gong, Hao

AU - Fan, Xiaoli

AU - Xue, Hairong

AU - Jiang, Cheng

AU - Chang, Kun

AU - Huang, Xianli

AU - He, Jianping

PY - 2022/2/7

Y1 - 2022/2/7

N2 - For the first time, covalent organic frameworks (COF-TpPa and COF-TpPaC) are selected to combine with the BiVO4 photoanode through a covalent bond. The heterojunction and covalent connection of COFs and BiVO4 can promote the separation of carriers, and the -CH3 on the benzene ring in COF-TpPaC as an electron donor group can increase the carrier concentration of the photoanode. As a result, the TpPaC/BiVO4 photoanode shows the best performance. This covalent hybridization strategy opens a new insight into the development of COF-modified photoanodes.

AB - For the first time, covalent organic frameworks (COF-TpPa and COF-TpPaC) are selected to combine with the BiVO4 photoanode through a covalent bond. The heterojunction and covalent connection of COFs and BiVO4 can promote the separation of carriers, and the -CH3 on the benzene ring in COF-TpPaC as an electron donor group can increase the carrier concentration of the photoanode. As a result, the TpPaC/BiVO4 photoanode shows the best performance. This covalent hybridization strategy opens a new insight into the development of COF-modified photoanodes.

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Promoting charge separation by rational integration of a covalent organic framework on a BiVO₄photoanode

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