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溶液可加工有机半导体中层状结晶度的区域异构控制。

Regioisomeric control of layered crystallinity in solution-processable organic semiconductors.

作者信息

Inoue Satoru, Higashino Toshiki, Arai Shunto, Kumai Reiji, Matsui Hiroyuki, Tsuzuki Seiji, Horiuchi Sachio, Hasegawa Tatsuo

机构信息

Department of Applied Physics, The University of Tokyo 7-3-1 Hongo Tokyo 113 8656 Japan

Research Institute for Advanced Electronics and Photonics (RIAEP), National Institute of Advanced Industrial Science and Technology (AIST) Tsukuba Ibaraki 305-8565 Japan.

出版信息

Chem Sci. 2020 Oct 19;11(46):12493-12505. doi: 10.1039/d0sc04461j. eCollection 2020 Dec 14.

DOI:10.1039/d0sc04461j
PMID:34976335
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8647348/
Abstract

The construction and control of 2D layered molecular packing motifs with functionally substituted π-electron cores are crucial for developing organic electronic materials and devices. We investigated a regioisomeric structure-property relationship in high-performance and solution-processable layered organic semiconductors based on -octyl-substituted benzothieno[3,2-]naphtho[2,3-]thiophene (-C8-BTNT). We demonstrated that an isomorphous layered herringbone packing motif is obtainable in a series of four positional isomers of -C8-BTNTs whose π-electron core is substituted by an octyl chain at one of the four most peripheral positions with roughly keeping the rod-like molecular shape. These regioisomeric compounds exhibited systematic variations in the solvent solubility and liquid-crystalline phase transitions at elevated temperatures. The analysis of intermolecular interaction energies in the crystals based on dispersion-corrected DFT calculations revealed that the crystals of 2- and 8--C8-BTNTs are more stable than those of 3- and 9--C8-BTNTs owing to the higher ordering of alkyl chain layers in the crystals. Such differences of the stability in their crystal formation are closely correlated with TFT performances, where the single-crystal devices of the 2- and 8--C8-BTNTs substituted at the most peripheral positions exhibit high-performance TFT characteristics with a mobility of approximately 10 cm V s.

摘要

构建和控制具有功能取代π电子核的二维层状分子堆积图案对于开发有机电子材料和器件至关重要。我们研究了基于辛基取代的苯并噻吩并[3,2-b]萘并[2,3-d]噻吩(-C8-BTNT)的高性能且可溶液加工的层状有机半导体中的区域异构体结构-性能关系。我们证明,在一系列-C8-BTNTs的四种位置异构体中可获得同构的层状人字堆积图案,其π电子核在四个最外围位置之一被辛基链取代,同时大致保持棒状分子形状。这些区域异构体化合物在溶剂溶解度和高温下的液晶相变方面表现出系统变化。基于色散校正DFT计算对晶体中分子间相互作用能的分析表明,由于晶体中烷基链层的更高有序性,2-和8-C8-BTNTs的晶体比3-和9-C8-BTNTs的晶体更稳定。它们晶体形成稳定性的这种差异与TFT性能密切相关,其中在最外围位置取代的2-和8-C8-BTNTs的单晶器件表现出高性能TFT特性,迁移率约为10 cm² V⁻¹ s⁻¹ 。

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