穿起苝二酰亚胺弓。

Stringing the Perylene Diimide Bow.

作者信息

Liu Taifeng, Yang Jingjing, Geyer Florian, Conrad-Burton Felisa S, Hernández Sánchez Raúl, Li Hexing, Zhu Xiaoyang, Nuckolls Colin P, Steigerwald Michael L, Xiao Shengxiong

机构信息

The Education Ministry Key Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, College of Chemistry and Materials Science, Shanghai Normal University, Shanghai, 200234, China.

Department of Chemistry, Columbia University, New York, NY, 10027, USA.

出版信息

Angew Chem Int Ed Engl. 2020 Aug 17;59(34):14303-14307. doi: 10.1002/anie.202004989. Epub 2020 Jul 6.

DOI:10.1002/anie.202004989

PMID:32495388

Abstract

This study explores a new mode of contortion in perylene diimides where the molecule is bent, like a bow, along its long axis. These bowed PDIs were synthesized through a facile fourfold Suzuki macrocyclization with aromatic linkers and a tetraborylated perylene diimide that introduces strain and results in a bowed structure. By altering the strings of the bow, the degree of bending can be controlled from flat to highly bent. Through spectroscopy and quantum chemical calculations, it is demonstrated that the energy of the lowest unoccupied orbital can be controlled by the degree of bending in the structures and that the energy of the highest occupied orbital can be controlled to a large extent by the constitution of the aromatic linkers. The important finding is that the bowing results not only in red-shifted absorptions but also more facile reductions.

摘要

本研究探索了苝二亚胺的一种新的扭曲模式，即分子沿其长轴像弓一样弯曲。这些弯曲的苝二亚胺通过与芳族连接基和引入应变并导致弯曲结构的四硼酸化苝二亚胺进行简便的四重铃木大环化反应合成。通过改变弓的弦，可以将弯曲程度从平坦控制到高度弯曲。通过光谱学和量子化学计算表明，最低未占据轨道的能量可以通过结构中的弯曲程度来控制，并且最高占据轨道的能量在很大程度上可以通过芳族连接基的组成来控制。重要的发现是，这种弯曲不仅导致吸收红移，而且还使还原更容易。

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穿起苝二酰亚胺弓。

Stringing the Perylene Diimide Bow.

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