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- Title
Enhancing Built‐in Electric Fields via Molecular Symmetry Modulation in Supramolecular Photocatalysts for Highly Efficient Photocatalytic Hydrogen Evolution.
- Authors
Zhu, Xiaolin; Jia, Yihui; Liu, Yuhan; Xu, Jingyi; He, Huarui; Wang, Siyue; Shao, Yang; Zhai, Yaxin; Zhu, Yongfa
- Abstract
Nature‐inspired supramolecular self‐assemblies are attractive photocatalysts, but their quantum yields are limited by poor charge separation and transportation. A promising strategy for efficient charge transfer is to enhance the built‐in electric field by symmetry breaking. Herein, an unsymmetric protonation, N‐heterocyclic π‐conjugated anthrazoline‐based supramolecular photocatalyst SA‐DADK‐H+ was developed. The unsymmetric protonation breaks the initial structural symmetry of DADK, resulting in ca. 50‐fold increase in the molecular dipole, and facilitates efficient charge separation and transfer within SA‐DADK‐H+. The protonation process also creates numerous active sites for H2O adsorption, and serves as crucial proton relays, significantly improving the photocatalytic efficiency. Remarkably, SA‐DADK‐H+ exhibits an outstanding hydrogen evolution rate of 278.2 mmol g−1 h−1 and a remarkable apparent quantum efficiency of 25.1 % at 450 nm, placing it among the state‐of‐the‐art performances in organic semiconductor photocatalysts. Furthermore, the versatility of the unsymmetric protonation approach has been successfully applied to four other photocatalysts, enhancing their photocatalytic performance by 39 to 533 times. These findings highlight the considerable potential of unsymmetric protonation induced symmetry breaking strategy in tailoring supramolecular photocatalysts for efficient solar‐to‐fuel production.
- Subjects
ELECTRIC fields; PHOTOCATALYSTS; ORGANIC semiconductors; QUANTUM efficiency; SYMMETRY breaking; PROTON transfer reactions; CHARGE transfer
- Publication
Angewandte Chemie, 2024, Vol 136, Issue 26, p1
- ISSN
0044-8249
- Publication type
Article
- DOI
10.1002/ange.202405962