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非共价构象锁增强的有机和聚合物半导体。

Organic and Polymeric Semiconductors Enhanced by Noncovalent Conformational Locks.

机构信息

College of Materials Science and Optoelectronic Technology and Chinese Academy of Sciences Key Laboratory of Vacuum Physics, University of Chinese Academy of Sciences , Beijing 100049, People's Republic of China.

Department of Chemistry and Materials Research Center, Northwestern University , Evanston, Illinois 60208, United States.

出版信息

Chem Rev. 2017 Aug 9;117(15):10291-10318. doi: 10.1021/acs.chemrev.7b00084. Epub 2017 Jul 3.

Abstract

Constructing highly planar, extended π-electron systems is an important strategy for achieving high-mobility organic semiconductors. In general, there are two synthetic strategies for achieving π-conjugated systems with high planarity. The conventional strategy connects neighboring aromatic rings through covalent bonds to restrict the rotation about single bonds. However, this usually requires a complex sequence of synthetic steps to achieve this target, which can be costly and labor-intensive. More recently, noncovalent through-space intramolecular interactions, which are defined here as noncovalent conformational locks, have been employed with great success to increase the planarity and rigidity of extended π-electron systems; this has become a well-known and important strategy to design and synthesize highly planar π-conjugated systems for organic electronics. This review offers a comprehensive and general summary of conjugated systems with such noncovalent conformational locks, including O···S, N···S, X···S (where X = Cl, Br, F), and H···S through-space interactions, together with analysis by density functional theory computation, X-ray diffraction, and microstructural characterization, as well as by evaluation of charge transport in organic thin-film transistors and solar cells.

摘要

构建高度平面、扩展的π电子体系是实现高迁移率有机半导体的重要策略。通常,有两种合成策略可以实现具有高平面性的π共轭体系。传统策略是通过共价键连接相邻的芳环,以限制单键的旋转。然而,这通常需要一系列复杂的合成步骤来实现这一目标,这可能是昂贵和劳动密集型的。最近,通过空间的非共价分子内相互作用,在这里被定义为非共价构象锁,已经被成功地用于增加扩展的π电子体系的平面性和刚性;这已经成为设计和合成用于有机电子学的高度平面π共轭体系的一种众所周知且重要的策略。本综述提供了具有这种非共价构象锁的共轭体系的全面和综合总结,包括 O···S、N···S、X···S(其中 X = Cl、Br、F)和 H···S 通过空间相互作用,以及通过密度泛函理论计算、X 射线衍射和微观结构表征以及有机薄膜晶体管和太阳能电池中的电荷输运评估进行的分析。

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