Benzothiadiazole-based push-pull copolymers - Balancing synthetic complexity against organic solar cell efficiency

被引:6
|
作者
Valkeneers, Kaat [1 ,2 ,3 ]
Vandewal, Koen [1 ,2 ,3 ]
Maes, Wouter [1 ,2 ,3 ]
机构
[1] UHasselt Hasselt Univ, Inst Mat Res IMO IMOMEC, Agoralaan 1, B-3590 Diepenbeek, Belgium
[2] IMEC, IMOMEC Div, Wetenschapspk 1, B-3590 Diepenbeek, Belgium
[3] Energyville, Thorpk, B-3600 Genk, Belgium
来源
ORGANIC ELECTRONICS | 2022年 / 111卷
基金
欧洲研究理事会; 比利时弗兰德研究基金会;
关键词
DONOR-ACCEPTOR POLYMERS; POWER CONVERSION EFFICIENCY; BAND-GAP POLYMERS; OPEN-CIRCUIT-VOLTAGE; STRUCTURE-PROPERTY RELATIONSHIP; FIELD-EFFECT TRANSISTORS; CHARGE-CARRIER DYNAMICS; PI-CONJUGATED POLYMERS; THIN-FILM TRANSISTORS; D-A COPOLYMER;
D O I
10.1016/j.orgel.2022.106667
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Over the last two decades, an enormous number of new polymeric materials have been developed for organic photovoltaics, with the power conversion efficiencies of the best solar cell devices now exceeding 18%. The top-performing photoactive materials are generally rather complex, requiring extensive synthetic work. Low-cost, large-scale device manufacturing, however, demands a facile fabrication process. Therefore, simple synthetic building blocks such as benzothiadiazole are obviously most attractive from an economic as well as sustainability point of view. In this review, an overview is given of the numerous push-pull type conjugated polymers using benzothiadiazole and its derivatives as the electron-poor building block, and their performance in organic solar cells is discussed. Rather simple polymers such as PffBT4T or PPhI-ffBT afford reasonable efficiencies around 13%, whereas more complex ones, like D18, can compete with the best performing materials out there to date.
引用
收藏
页数:25
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