Issue 48, 2020

Preparation of non-fullerene acceptors with a multi-asymmetric configuration in a one-pot reaction for organic solar cells

Abstract

Asymmetric molecular configuration shows great potential in the design of non-fullerene acceptors (NFAs) for organic solar cells (OSCs). However, NFAs with multi-asymmetric factors are seldom explored and the structure–property relationship between different asymmetric isomers is unrevealed. Herein, two NFAs 2FIFIC and ICIF2F were rationally designed by simultaneously introducing an asymmetric bridge and a terminal group into the A1–D–π–A2 configuration. These two NFAs were synthesized in a one-pot reaction and separated facilely using silica gel column chromatography. Although 2FIFIC and ICIF2F have almost identical absorption profiles and similar energy levels, the diversity of asymmetry endows these two molecules with varied miscibility blending with the donor polymer PM6, leading to different morphology in blend films. The relatively low miscibility between 2FIFIC and PM6 enables their blend film to form a nanoscale fiber-like domain and stronger phase separation. This favorable morphology enhances the electron mobility and restrains charge recombination in PM6:2FIFIC devices, thus delivering a higher short circuit current density (Jsc), eventually providing a better PCE of 11.34% than that of ICIF2F based devices (9.60%). This work demonstrates that introducing multi-asymmetric factors into NFAs is a fruitful way of advancing OSCs, and the results revealed here are helpful in the design of new asymmetric NFAs.

Graphical abstract: Preparation of non-fullerene acceptors with a multi-asymmetric configuration in a one-pot reaction for organic solar cells

Supplementary files

Article information

Article type
Paper
Submitted
07 Here 2020
Accepted
04 Du 2020
First published
05 Du 2020

J. Mater. Chem. C, 2020,8, 17229-17236

Preparation of non-fullerene acceptors with a multi-asymmetric configuration in a one-pot reaction for organic solar cells

Y. Zhang, Y. Wang, Z. Xie, T. Shan, L. Zhu, F. Liu and H. Zhong, J. Mater. Chem. C, 2020, 8, 17229 DOI: 10.1039/D0TC04749J

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