萘和并苯二酰亚胺——有机电子学中比富勒烯更好的选择？

Naphthalene and perylene diimides - better alternatives to fullerenes for organic electronics?

机构信息

Universität Würzburg, Institut für Organische Chemie, Am Hubland, 97074 Würzburg, Germany.

出版信息

Chem Commun (Camb). 2018 Dec 6;54(98):13763-13772. doi: 10.1039/c8cc07640e.

Abstract

The LUMO levels of rylene diimides are highly comparable to those of fullerenes but this class of molecules offers tunability of both HOMO and LUMO levels and the related band gap by either simple substitution at the aromatic core or annulation to give expanded π-scaffolds. In this article we highlight the most outstanding achievements during the last decade in terms of charge carrier mobility for organic thin-film and single crystal field-effect transistors as well as photovoltaic performance for both small molecule and polymeric compounds.

摘要

芘二酰亚胺的 LUMO 能级与富勒烯非常接近，但这类分子通过在芳核上进行简单取代或稠合来扩展 π-骨架，可以调节 HOMO 和 LUMO 能级以及相关的能带隙。本文重点介绍了过去十年中在有机薄膜和单晶场效应晶体管的电荷载流子迁移率以及小分子和聚合物化合物的光伏性能方面的最杰出成就。

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萘和并苯二酰亚胺——有机电子学中比富勒烯更好的选择？

Naphthalene and perylene diimides - better alternatives to fullerenes for organic electronics?

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