n 型掺杂共轭聚合物的电子态密度工程以实现高电荷输运性能。

Density of States Engineering of n-Doped Conjugated Polymers for High Charge Transport Performances.

机构信息

Beijing National Laboratory for Molecular Sciences (BNLMS), Key Laboratory of Polymer Chemistry and Physics of Ministry of Education, Center of Soft Matter Science and Engineering, College of Chemistry and Molecular Engineering, Peking University, Beijing, 100871, China.

出版信息

Adv Mater. 2023 May;35(21):e2300634. doi: 10.1002/adma.202300634. Epub 2023 Mar 27.

DOI:10.1002/adma.202300634

PMID:36905682

Abstract

Charge transport of conjugated polymers in functional devices closely relates to their density of states (DOS) distributions. However, systemic DOS engineering for conjugated polymers is challenging due to the lack of modulated methods and the unclear relationship between DOS and electrical properties. Here, the DOS distribution of conjugated polymers is engineered to enhance their electrical performances. The DOS distributions of polymer films are tailored using three processing solvents with different Hansen solubility parameters. The highest n-type electrical conductivity (39 ± 3 S cm ), the highest power factor (63 ± 11 µW m K ), and the highest Hall mobility (0.14 ± 0.02 cm V s ) of the polymer (FBDPPV-OEG) are obtained in three films with three various DOS distributions, respectively. Through theoretical and experimental exploration, it is revealed that the carrier concentration and transport property of conjugated polymers can be efficiently controlled by DOS engineering, paving the way for rationally fabricating organic semiconductors.

摘要

功能器件中共轭聚合物的电荷输运与其态密度（DOS）分布密切相关。然而，由于缺乏调制方法和 DOS 与电性能之间的关系不明确，对共轭聚合物进行系统的 DOS 工程设计具有挑战性。在这里，通过三种具有不同 Hansen 溶解度参数的加工溶剂来调控聚合物的 DOS 分布，以提高其电性能。在三种具有不同 DOS 分布的聚合物薄膜中，分别获得了聚合物（FBDPPV-OEG）的最高 n 型电导率（39 ± 3 S cm ）、最高功率因子（63 ± 11 µW m K ）和最高空穴迁移率（0.14 ± 0.02 cm V s ）。通过理论和实验探索，揭示了通过 DOS 工程设计可以有效地控制共轭聚合物的载流子浓度和输运特性，为合理制备有机半导体铺平了道路。

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n 型掺杂共轭聚合物的电子态密度工程以实现高电荷输运性能。

Density of States Engineering of n-Doped Conjugated Polymers for High Charge Transport Performances.

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