催化作用
光催化
共价键
贵金属
化学
吡咯
组合化学
产量(工程)
合理设计
表征(材料科学)
电子结构
材料科学
氮气
纳米技术
兴奋剂
金属有机骨架
多相催化
金属
有机化学
配体(生物化学)
有机电子学
杂原子
光化学
工作(物理)
三聚氰胺
作者
Wei Liu,Duanhui Si,Jingjun Li,Xue Yang,Shuiying Gao,Rong Cao
标识
DOI:10.1002/anie.202523681
摘要
Conventional catalytic systems for the C─H arylation of pyrrole predominantly rely on noble metals or organic dyes, which suffer from inherent limitations such as low sustainability, challenging recyclability, and high cost. To address these challenges, this study develops a metal-free photocatalytic strategy employing a designed covalent organic framework, N-TFPPy-BD-COF, as an efficient heterogeneous catalyst with a precisely tailored electronic structure. Site-specific nitrogen doping within the pyrene-based scaffold enables fine-tuning of the electronic landscape. Spectroscopic characterization and theoretical computations reveal that nitrogen doping facilitates spatial separation of photogenerated electron-hole pairs, suppresses recombination, thereby improves visible-light absorption, prolongs charge-carrier lifetimes, and enhances charge-separation efficiency. Under visible-light irradiation, the catalyst delivers outstanding performance in the arylation of pyrroles, affording a yield of 79% with 98% selectivity, surpassing those achieved by noble metal and organic dye-based systems. Furthermore, N-TFPPy-BD-COF exhibits remarkable stability as a heterogeneous catalyst, maintaining its structural integrity over ten consecutive catalytic cycles. This work not only presents a sustainable and efficient pathway for C─H arylation but also establishes a general strategy for the rational design of COF-based photocatalysts through electronic structure engineering.
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