π共轭化合物中环超原子分子芳族规律的揭示

IF 2.7 2区 化学 Q3 CHEMISTRY, PHYSICAL
Xinlei Yu, Panpan Wu, Qinqin Yuan*, Chen Yan, Dan Li and Longjiu Cheng*, 
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引用次数: 0

摘要

π共轭化合物的芳香性一直是一个令人困惑的问题。基于最近出现的二维超原子分子理论,从化学键的角度建立了一个统一的规则来破译π共轭化合物的环超原子分子的芳构性。本文系统地研究了一系列由苯、噻吩或呋喃组成的平面[n]螺旋烯和[n]环烯,并将其视为超原子分子- On-2 - F2或- On,其中超原子- F和- O分别表示具有5个和4个π电子的π共轭单位。所确定的超原子路易斯结构直观地显示出芳香性,每个基本单元都符合苯的超原子六元规则,类似于经典的价键理论,这有利于合成由不同数量和种类的子基团组成的复π共轭化合物。环电流和化学键的演化趋势表明这些π共轭化合物具有局部带状芳香性。此外,非平面螺旋π共轭化合物有可能演变成具有优异物理性能的类弹簧周期性材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Unraveling the Aromatic Rule of Cyclic Superatomic Molecules in π-Conjugated Compounds

Unraveling the Aromatic Rule of Cyclic Superatomic Molecules in π-Conjugated Compounds

The aromaticity of π-conjugated compounds has long been a confusing issue. Based on a recently emerged two-dimensional (2D) superatomic-molecule theory, a unified rule was built to decipher the aromaticity of cyclic superatomic molecules of π-conjugated compounds from the chemical bonding perspective. Herein, a series of planar [n]helicenes and [n]circulenes, composed of benzene, thiophene, or furfuran, are systemically studied and seen as superatomic molecules On-2F2 or On, where superatoms F and O denote π-conjugated units with 5 and 4 π electrons, respectively. The ascertained superatomic Lewis structures intuitively display aromaticity with each basic unit meeting the superatomic sextet rule of benzene, similar to classical valence bond theory, which is favored by the synthesized complex π-conjugated compounds comprising different numbers and kinds of subrings. The evolutionary trend of ring currents and chemical bonding suggests a local ribbon-like aromaticity in these π-conjugated compounds. Moreover, nonplanar helical π-conjugated compounds have the potential to evolve into spring-like periodic materials with excellent physical properties.

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来源期刊
The Journal of Physical Chemistry A
The Journal of Physical Chemistry A 化学-物理:原子、分子和化学物理
CiteScore
5.20
自引率
10.30%
发文量
922
审稿时长
1.3 months
期刊介绍: The Journal of Physical Chemistry A is devoted to reporting new and original experimental and theoretical basic research of interest to physical chemists, biophysical chemists, and chemical physicists.
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