光伏聚合物侧链中二维共轭空间的尺寸效应：平衡相分离与电荷传输

Size Effect of Two-Dimensional Conjugated Space in Photovoltaic Polymers' Side Chain: Balancing Phase Separation and Charge Transport.

作者信息

Li Xiaoming, Huang Gongyue, Chen Weichao, Jiang Huanxiang, Qiao Shanlin, Yang Renqiang

机构信息

College of Chemistry and Pharmaceutical Engineering, Hebei University of Science and Technology, Shijiazhuang 050018, People's Republic of China.

CAS Key Laboratory of Bio-based Materials, Qingdao Institute of Bioenergy and Bioprocess Technology, Chinese Academy of Sciences, Qingdao 266101, People's Republic of China.

出版信息

ACS Appl Mater Interfaces. 2020 Apr 8;12(14):16670-16678. doi: 10.1021/acsami.9b23499. Epub 2020 Mar 24.

DOI:10.1021/acsami.9b23499

PMID:32126757

Abstract

Various two-dimensional (2D) side-chain-substituted benzo(1,2-:4,5-')dithiophene (BDT) blocks have been used to construct donor polymers, whereas the size effect of the side chains on the photovoltaic performance was overlooked in the past few years. In this work, three size-varied conjugated spaces (benzene, naphthalene, and biphenyl) were introduced into the corresponding polymers PBDB-Ph, PBDB-Na, and PBDB-BPh. This space engineering has a significant impact on the extent of phase separation in the active layer which blended with the polymer and the acceptor ITCPTC and preserved the desired morphology. The varied space size in the side chains lead to distinct balance mobility ratios of holes to electrons (benzene, 0.21; naphthalene, 0.75; and biphenyl, 0.57). Finally, PBDB-Na-based polymer solar cells (PSCs) delivered the highest power conversion efficiency of 12.52% when compared to the PSC performances of PBDB-Ph (8.48%) and PBDB-BPh (11.35%). The method in tailoring the side chain structures could fabricate a balance between phase separation and charge transport, providing an enlightenment for the development of photovoltaic devices.

摘要

各种二维（2D）侧链取代的苯并（1,2-:4,5-′）二噻吩（BDT）嵌段已被用于构建供体聚合物，然而在过去几年中，侧链的尺寸效应对于光伏性能的影响一直被忽视。在这项工作中，三种尺寸不同的共轭空间（苯、萘和联苯）被引入到相应的聚合物PBDB-Ph、PBDB-Na和PBDB-BPh中。这种空间工程对与聚合物和受体ITCPTC共混的活性层中的相分离程度有显著影响，并保持了所需的形态。侧链中不同的空间尺寸导致空穴与电子的迁移率比明显不同（苯为0.21；萘为0.75；联苯为0.57）。最后，与PBDB-Ph（8.48%）和PBDB-BPh（11.35%）的聚合物太阳能电池（PSC）性能相比，基于PBDB-Na的聚合物太阳能电池实现了12.52%的最高功率转换效率。定制侧链结构的方法可以在相分离和电荷传输之间取得平衡，为光伏器件的发展提供启示。

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光伏聚合物侧链中二维共轭空间的尺寸效应：平衡相分离与电荷传输

Size Effect of Two-Dimensional Conjugated Space in Photovoltaic Polymers' Side Chain: Balancing Phase Separation and Charge Transport.

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