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Primitive functional groups directed distinct photocatalytic performance of imine-linked donor-acceptor covalent organic frameworks

Xitong Ren, Jiajie Sun, Yusen Li, Feng Bai

2024Nano Research15 citationsDOI

Abstract

The combination of donor-acceptor (D–A) structures presents a viable strategy for fabricating covalent organic frameworks (COFs) with exceptional photocatalytic performances. Nevertheless, the selection of functional groups on donor or acceptor building blocks and their effect on the macroscopic properties of COFs are ambiguous. In this study, we tactfully synthesized a pair of Py-DBT-COFs from the same pyrene (Py) donor and 4,7-diphenylbenzo[c][1,2,5]thiadiazole (DBT) acceptor cores with distinct primitive functional groups. The primitive functional groups of building units determine the photocatalytic properties of corresponding Py-DBT-COFs. Specifically, Py-C-DBT-COF synthesized from Py-4CHO and DBT-2NH2 showcases a splendid H2 evolution rate as high as 21,377.7 µmol/(g·h) (with 5 wt.% Pt) originating from better charge transfer capacity, which is significantly superior to that of Py-N-DBT-COF constructed from Py-4NH2 and DBT-2CHO. The distinct photocatalytic performances of the two COFs are demonstrated to originate from the different charge separation and transfer capabilities. This work supplies a new avenue for optimizing the photocatalytic performance of D–A COFs from the perspective of primitive functional group selections.

Topics & Concepts

ImineCovalent bondPhotocatalysisAcceptorChemistryPhotochemistryFunctional groupCatalysisOrganic chemistryPolymerCondensed matter physicsPhysicsCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Photocatalysis Techniques
Primitive functional groups directed distinct photocatalytic performance of imine-linked donor-acceptor covalent organic frameworks | Litcius