Issue 11, 2023

An efficient polymer acceptor with fluorinated linkers enables all polymer solar cells with an efficiency of 15.7%

Abstract

Despite the significant progress in all-polymer solar cells (all-PSCs) in recent years, obtaining both high open-circuit voltage (VOC) and short-circuit current density (JSC) simultaneously has been a challenging issue. Herein, a novel polymer acceptor PY-DF was developed by polymerizing small molecule acceptor (SMA) monomers with difluorothiophene linkers. Compared to non-fluorinated PYT, PY-DF exhibits a more coplanar and rigid molecular conformation, which leads to better intra-molecular conjugation and enhanced interchain packing, resulting in improved electron mobility and reduced energetic disorder. Furthermore, PY-DF exhibits a relatively up-shifted lowest unoccupied molecular orbital (LUMO) energy level (−3.76 eV) than PYT (−3.80 eV), which is favorable for improving VOC. In addition, the polymer acceptor demonstrates good miscibility with polymer donor, thus leading to optimized phase segregation for superior exciton dissociation and charge transport. As a result, the PY-DF-based all-PSCs achieved a higher PCE of 15.7% with simultaneously enhanced JSC (23.1 mA cm−2) and VOC (0.97 V) in comparison with PYT-based all-PSCs (PCE = 13.2%, JSC = 21.7 mA cm−2, and VOC = 0.93 V). This work provides a promising polymer acceptor for all-PSCs and shows that fluorination of linkers is a potential strategy to build high-performance polymer acceptors.

Graphical abstract: An efficient polymer acceptor with fluorinated linkers enables all polymer solar cells with an efficiency of 15.7%

Supplementary files

Article information

Article type
Paper
Submitted
01 дек. 2022
Accepted
01 фев. 2023
First published
04 фев. 2023

J. Mater. Chem. A, 2023,11, 5584-5592

An efficient polymer acceptor with fluorinated linkers enables all polymer solar cells with an efficiency of 15.7%

H. Xiao, J. Lv, M. Liu, X. Guo, X. Xia, X. Lu and M. Zhang, J. Mater. Chem. A, 2023, 11, 5584 DOI: 10.1039/D2TA09364B

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