Issue 28, 2022

Improved photovoltaic performance of quinoxaline-based polymers by systematic modulation of electron-withdrawing substituents

Abstract

In this study, systematic structural modifications using electron-withdrawing substituents were carried out on quinoxaline-based donor–acceptor (D–A)-type polymers to achieve promising p-type polymers for photovoltaic applications. First, the polymer PB-FQxF, composed of electron-donating benzodithiophene (BDT) with two thienyl side chains and electron-accepting quinoxaline with multiple F atoms, was prepared as a reference. Afterward, two promising approaches for incorporating additional F atoms on the two thienyl groups on the BDT donor and replacing the F atom on the quinoxaline acceptor with a more electron-withdrawing CN moiety were methodically attempted to produce three target polymers, PBF-FQxF, PB-FQxCN, and PBF-FQxCN. Notably, the F atoms and CN units in the BDT donor and quinoxaline acceptor, respectively, can modulate the diverse properties of the polymers, leading to a positive impact on their photovoltaic properties. The performance of the PSCs was improved in the following sequence of PB-FQxF, PBF-FQxF, PB-FQxCN, and PBF-FQxCN by increasing the number and strength of the existing electron-withdrawing substituents. Owing to the mutual cooperative effects of the F atom and CN unit on the BDT donor and the CN unit on the quinoxaline acceptor, respectively, the device with PBF-QxCN exhibited the best power conversion efficiency of 12.11%.

Graphical abstract: Improved photovoltaic performance of quinoxaline-based polymers by systematic modulation of electron-withdrawing substituents

Supplementary files

Article information

Article type
Paper
Submitted
16 May 2022
Accepted
22 Jun 2022
First published
22 Jun 2022

J. Mater. Chem. C, 2022,10, 10338-10346

Improved photovoltaic performance of quinoxaline-based polymers by systematic modulation of electron-withdrawing substituents

C. P. Sagita, J. W. Yoon, M. Kyeong, S. W. Lee, H. Bae, D. R. Whang, H. Choi, S. Ko and D. W. Chang, J. Mater. Chem. C, 2022, 10, 10338 DOI: 10.1039/D2TC02014A

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