Progress of Polycyclic Boron-Doped Molecular Carbons

Liuzhong Yuan, Yue Wang, Chuandong Dou
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引用次数: 0

Abstract

Molecular carbons, namely molecular cutout of carbon materials, are of importance for understanding accurate structures of carbon allotropes and developing functional π-electron materials. Doping the boron atoms into π-conjugated skeletons of molecular carbons enables the construction of boron-doped molecular carbons (BMCs), further leading to new chemistry and attractive material systems, which are distinct from carbon-based and other heteroatom-doped molecular carbons. Herein, the bottom-up organic synthesis methodologies have been employed to synthesize BMCs that feature the boron atoms at the edge or in the center of π-skeletons. They have not only amazing topological structures and good stability but also intriguing photophysical and electronic properties. Moreover, they have sufficient Lewis acidity and can coordinate with Lewis bases to form Lewis acid–base complexes, which exhibit stimuli-responsive functions. Notably, some of these BMCs can be utilized in the fields of organic reactions, optical and electronic devices, as well as supramolecular chemistry and photothermal materials. In this short review, we aim to highlight the design and synthetic strategies of polycyclic BMCs, and their unique physical properties and practical applications.

Abstract Image

多环硼掺杂碳分子的研究进展
分子碳,即碳材料的分子切出,对于准确认识碳同素异形体的结构和开发功能π电子材料具有重要意义。将硼原子掺杂到分子碳的π共轭骨架中,可以构建硼掺杂分子碳(BMCs),从而形成不同于碳基和其他杂原子掺杂分子碳的新型化学和吸引材料体系。本文采用自底向上的有机合成方法合成了硼原子位于π-骨架边缘或中心的硼原子复合材料。它们不仅具有令人惊叹的拓扑结构和良好的稳定性,而且具有令人着迷的光物理和电子特性。具有足够的Lewis酸,可与Lewis碱配合形成Lewis酸碱配合物,具有刺激响应功能。值得注意的是,其中一些bmc可以应用于有机反应、光学和电子器件、超分子化学和光热材料等领域。在这篇简短的综述中,我们旨在重点介绍多环bmc的设计和合成策略,以及它们独特的物理性质和实际应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.70
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0.00%
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审稿时长
12 weeks
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