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铅与螯合配体形成的配合物中孤对电子立体化学活性的量子化学评估。

A quantum chemistry evaluation of the stereochemical activity of the lone pair in Pb complexes with sequestering ligands.

作者信息

Moncomble Aurélien, Cornard Jean-Paul, Meyer Michel

机构信息

Univ. Lille, CNRS, UMR 8516 - LASIR - Laboratoire de Spectrochimie Infrarouge et Raman, F-59000, Lille, France.

Institut de Chimie Moléculaire de l'Université de Bourgogne (ICMUB), UMR 6302, CNRS, Université de Bourgogne-Franche-Comté, 9 avenue Alain Savary, BP 47870, 21078, Dijon Cedex, France.

出版信息

J Mol Model. 2017 Jan;23(1):24. doi: 10.1007/s00894-016-3190-y. Epub 2017 Jan 7.

DOI:10.1007/s00894-016-3190-y
PMID:28064375
Abstract

The stereochemical activity of the lone pair on Pb complexes is assessed using several theoretical methods, including structural analyses, computations of Fukui functions, natural bond orbitals, electron localization function, investigation of the electron density and of its laplacian. The attention is focused on four octadentate N-carbamoylmethyl-substituted tetraazamacrocycles of various ring sizes ranging from 8 to 14 atoms associated with the Pb cation. The theoretical study illustrates the geometrical constraints imposed by the ring structure which limits the spatial development of the lone pair but without fully preventing it. For a given coordination number, the lone pair activity is strongly correlated to the geometry of the ligand and in particular to the size of the cage that the ligand forms around the Pb cation. Some limitations of the theoretical tools used are also evidenced, among them the necessity to sample around a critical point instead of just analyzing its nature. In the case of the laplacian of the electron density, a visualization method is introduced to moderate the results based only on the nature of a critical point. These limitations should also be related to the difficulty to extend the lone pair concept for the heaviest atoms of the classification.

摘要

使用多种理论方法评估铅配合物上孤对电子的立体化学活性,包括结构分析、福井函数计算、自然键轨道、电子定域函数、电子密度及其拉普拉斯算子的研究。研究重点关注与铅阳离子结合的4种不同环大小(8至14个原子)的八齿N-氨甲酰甲基取代四氮杂大环化合物。理论研究表明,环结构施加的几何限制会限制孤对电子的空间扩展,但不会完全阻止它。对于给定的配位数,孤对电子活性与配体的几何形状密切相关,特别是与配体围绕铅阳离子形成的笼状结构的大小有关。还证明了所用理论工具的一些局限性,其中包括需要在临界点周围进行采样,而不仅仅是分析其性质。在电子密度拉普拉斯算子的情况下,引入了一种可视化方法,以仅基于临界点的性质来缓和结果。这些局限性还应与为分类中最重的原子扩展孤对电子概念的困难相关。

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