Polymerized small molecular acceptor based all-polymer solar cells with an efficiency of 16.16% via tuning polymer blend morphology by molecular design

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作者
Jiaqi Du
Ke Hu
Jinyuan Zhang
Lei Meng
Jiling Yue
Indunil Angunawela
Hongping Yan
Shucheng Qin
Xiaolei Kong
Zhanjun Zhang
Bo Guan
Harald Ade
Yongfang Li
机构
[1] Chinese Academy of Sciences,Beijing National Laboratory for Molecular Sciences, CAS Key Laboratory of Organic Solids, Institute of Chemistry
[2] University of Chinese Academy of Sciences,School of Chemical Science
[3] Chinese Academy of Sciences,Center for Physiochemical Analysis and Measurement, Institute of Chemistry
[4] North Carolina State University,Department of Physics and Organic and Carbon Electronics Lab (ORaCEL)
[5] Stanford University,Department of Chemical Engineering
[6] Soochow University,Laboratory of Advanced Optoelectronic Materials, Suzhou Key Laboratory of Novel Semiconductor
来源
Nature Communications | / 12卷
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摘要
All-polymer solar cells (all-PSCs) based on polymerized small molecular acceptors (PSMAs) have made significant progress recently. Here, we synthesize two A-DA’D-A small molecule acceptor based PSMAs of PS-Se with benzo[c][1,2,5]thiadiazole A’-core and PN-Se with benzotriazole A’-core, for the studies of the effect of molecular structure on the photovoltaic performance of the PSMAs. The two PSMAs possess broad absorption with PN-Se showing more red-shifted absorption than PS-Se and suitable electronic energy levels for the application as polymer acceptors in the all-PSCs with PBDB-T as polymer donor. Cryogenic transmission electron microscopy visualizes the aggregation behavior of the PBDB-T donor and the PSMA in their solutions. In addition, a bicontinuous-interpenetrating network in the PBDB-T:PN-Se blend film with aggregation size of 10~20 nm is clearly observed by the photoinduced force microscopy. The desirable morphology of the PBDB-T:PN-Se active layer leads its all-PSC showing higher power conversion efficiency of 16.16%.
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