Promoting charge separation by rational integration of a covalent organic framework on a BiVO4 photoanode
Chemical Communications2022Vol. 58(11), pp. 1796–1799
Citations Over Time
Bin Gao, Xingyu Yu, Tao Wang, Hao Gong, Xiaoli Fan, Hairong Xue, Cheng Jiang, Kun Chang, Xianli Huang, Jianping He
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.
Related Papers
- → Constructing Stable and Porous Covalent Organic Frameworks for Efficient Iodine Vapor Capture(2021)53 cited
- → Pore wall fluorescence labeling of covalent organic frameworks(2017)40 cited
- → Promoting charge separation by rational integration of a covalent organic framework on a BiVO4 photoanode(2022)20 cited
- → Heterostructured two-dimensional covalent organic framework membranes for enhanced ion separation(2022)13 cited
- → Multi-sulfonated functionalized hydrophilic covalent organic framework for highly efficient dye removal from real samples(2022)4 cited