Wu Yang, Yan Xiufen, Liu Zeyu, Lu Tian, Zhao Mengdi, Xu Jingbo, Wang Jiaojiao
School of Environmental and Chemical Engineering, Jiangsu University of Science and Technology, Zhenjiang, 212100, People's Republic of China.
Beijing Kein Research Center for Natural Sciences, Beijing, 100024, People's Republic of China.
Chemistry. 2024 Nov 26;30(66):e202403369. doi: 10.1002/chem.202403369. Epub 2024 Nov 3.
Carborazine (BCNH) and borazine (BNH) are isoelectronic analogues of benzene (CH). The aromatic character of borazine have basically reached a consensus after a long period of controversy, but the related properties of carborazine are even rarely reported. In this work, we systematically investigated the geometric structure, charge distribution, frontier molecular orbital characteristics, bonding, electronic delocalization, magnetic shielding effect, and induced ring current of carborazine and borazine, and compared the studied characteristics with those of benzene to determine the aromatic character of the two analogues. The combination of multiple properties shows that although they are isoelectronic, carborazine is evidently aromatic, while borazine only exhibits rather weak aromaticity. The C atom acting as a connecting bridge between B and N atoms in carborazine reduces the electronegativity difference on the molecular backbone and enhances the electronic delocalization over the conjugated path, which is the essence of the distinct disparity of aromaticity between carborazine and borazine.
碳硼嗪(BCNH)和硼嗪(BNH)是苯(CH)的等电子类似物。经过长期的争论,硼嗪的芳香性基本已达成共识,但关于碳硼嗪的相关性质却鲜有报道。在这项工作中,我们系统地研究了碳硼嗪和硼嗪的几何结构、电荷分布、前沿分子轨道特征、键合、电子离域、磁屏蔽效应和感应环电流,并将所研究的特征与苯的特征进行比较,以确定这两种类似物的芳香性。多种性质的综合表明,尽管它们是等电子体,但碳硼嗪具有明显的芳香性,而硼嗪仅表现出相当弱的芳香性。在碳硼嗪中作为硼和氮原子之间连接桥的碳原子减小了分子主链上的电负性差异,并增强了共轭路径上的电子离域,这是碳硼嗪和硼嗪芳香性明显差异的本质。
