寡聚受体：一种连接小分子与聚合物以制造稳定太阳能器件的“二合一”策略。

Oligomeric Acceptor: A "Two-in-One" Strategy to Bridge Small Molecules and Polymers for Stable Solar Devices.

作者信息

Wang Hengtao, Cao Congcong, Chen Hui, Lai Hanjian, Ke Chunxian, Zhu Yulin, Li Heng, He Feng

机构信息

Shenzhen Grubbs Institute and Department of Chemistry, Southern University of Science and Technology, Shenzhen, 518055, China.

Academy for Advanced Interdisciplinary Studies, Southern University of Science and Technology, Shenzhen, 518055, China.

出版信息

Angew Chem Int Ed Engl. 2022 Jun 7;61(23):e202201844. doi: 10.1002/anie.202201844. Epub 2022 Apr 5.

DOI:10.1002/anie.202201844

PMID:35307936

Abstract

Oligomeric acceptors are expected to combine the advantages of both highly developed small molecular and polymeric acceptors. However, organic solar cells (OSCs) based on oligomers lag far behind due to their slow development and low diversity. Here, three oligomeric acceptors were produced through oligomerization of small molecules. The dimer dBTICγ-EH achieved the best power conversion efficiencies (PCEs) of 14.48 % in bulk heterojunction devices and possessed a T80 (80 % of the initial PCE) lifetime of 1020 h under illumination, which were far better than that of small molecular and polymeric acceptors. More excitingly, it showed PCEs of 16.06 % in quasi-planar heterojunction (Q-PHJ) devices which is the highest value OSCs using oligomeric acceptors to date. These results suggest that oligomerization of small molecules is a promising strategy to achieve OSCs with optimized performance between the high efficiency and durable stability, and offer oligomeric materials a bright future in commercial applications.

摘要

寡聚受体有望兼具高度发达的小分子受体和聚合物受体的优点。然而，基于寡聚物的有机太阳能电池（OSC）由于其发展缓慢和多样性低而远远落后。在此，通过小分子的寡聚反应制备了三种寡聚受体。二聚体dBTICγ-EH在本体异质结器件中实现了14.48%的最佳功率转换效率（PCE），并且在光照下具有1020小时的T80（初始PCE的80%）寿命，这远优于小分子和聚合物受体。更令人兴奋的是，它在准平面异质结（Q-PHJ）器件中显示出16.06%的PCE，这是迄今为止使用寡聚受体的OSC的最高值。这些结果表明，小分子的寡聚反应是实现具有高效和持久稳定性之间优化性能的OSC的一种有前途的策略，并为寡聚材料在商业应用中提供了光明的前景。

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寡聚受体：一种连接小分子与聚合物以制造稳定太阳能器件的“二合一”策略。

Oligomeric Acceptor: A "Two-in-One" Strategy to Bridge Small Molecules and Polymers for Stable Solar Devices.

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