Evolution of Electronic Properties along the Path from a Covalent to a Tetrel Bond in the Synthesis of Tetraphenyl Substituted Compounds

IF 0.7 Q4 CHEMISTRY, MULTIDISCIPLINARY Moscow University Chemistry Bulletin Pub Date : 2024-10-16 DOI:10.3103/S0027131424700275
O. S. Borodina, A. E. Masunov, E. V. Bartashevich
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Abstract

The evolution of the electronic characteristics of chemical bonds formed and broken along the path of the bimolecular nucleophilic substitution reaction at a tetrahedral central atom, which is the Tt=C, Si, and Ge atom, is analyzed. For this purpose, the reaction paths of the step-by-step replacement of the chlorine atom with the phenyl fragment are modeled, and the energy characteristics of the equilibrium initial, transition, and final states are obtained within the framework of the DFT. For different reaction centers, which are atoms of the carbon group (Tt), changes in electron density distributions and shifts in the positions of the extremes of the total static and electrostatic potential for the forming C–Tt and breaking Tt–Cl bonds along the reaction path are compared. Quantitative criteria are refined that determine the region of existence of a typical noncovalent tetrel bond Tt…Cl, allowing it to be distinguished from a covalent one. Establishment of the properties of the transition state stabilizing tetrel bond may be useful for monitoring the efficient synthesis of covalent organic framework precursors.

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合成四苯基取代化合物过程中从共价键到四键的电子特性演变
分析了在四面体中心原子(即 Tt=C、Si 和 Ge 原子)上发生双分子亲核置换反应的路径上形成和断裂的化学键的电子特性的演变。为此,建立了苯基片段逐步取代氯原子的反应路径模型,并在 DFT 框架内获得了平衡初始态、过渡态和最终态的能量特征。对于不同的反应中心(即碳基(Tt)原子),比较了电子密度分布的变化以及形成 C-Tt 键和断开 Tt-Cl 键的总静电位和静电位极值在反应路径上的位置移动。完善了定量标准,以确定典型的非共价四键 Tt...Cl 的存在区域,从而将其与共价键区分开来。确定过渡态稳定四键的特性可能有助于监测共价有机框架前体的高效合成。
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来源期刊
Moscow University Chemistry Bulletin
Moscow University Chemistry Bulletin CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
1.30
自引率
14.30%
发文量
38
期刊介绍: Moscow University Chemistry Bulletin is a journal that publishes review articles, original research articles, and short communications on various areas of basic and applied research in chemistry, including medical chemistry and pharmacology.
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