BF3···NCXH2···Y（X = P、As、Sb；Y = H2O、NH3）配合物中三卤键与氮族元素键协同效应的理论研究

Theoretical study of the cooperative effects between the triel bond and the pnicogen bond in BF3···NCXH2···Y (X = P, As, Sb; Y = H2O, NH3) complexes.

作者信息

Liu Ming-Xiu, Zhuo Hong-Ying, Li Qing-Zhong, Li Wen-Zuo, Cheng Jian-Bo

机构信息

The Laboratory of Theoretical and Computational Chemistry, School of Chemistry and Chemical Engineering, Yantai University, Yantai, 264005, People's Republic of China.

出版信息

J Mol Model. 2016 Jan;22(1):10. doi: 10.1007/s00894-015-2882-z. Epub 2015 Dec 16.

DOI:10.1007/s00894-015-2882-z

PMID:26669879

Abstract

The interplay between the triel bond and the pnicogen bond in BF3···NCXH2···Y (X = P, As, Sb; Y = H2O, NH3) complexes was studied theoretically. Both bonds exhibited cooperative effects, with shorter binding distances, larger interaction energies, and greater electron densities found for the ternary complexes than for the corresponding binary ones. The cooperative effects between the triel bond and the pnicogen bond were probed by analyzing molecular electrostatic potentials, charge transfer, and orbital interactions. The results showed that the enhancement of the triel bond can mainly be attributed to the electrostatic interaction, while the strengthening of the pnicogen bond can be ascribed chiefly to the electrostatic and orbital interactions. In addition, the origins of both the triel bond and the pnicogen bond were deduced via energy decomposition.

摘要

从理论上研究了BF3···NCXH2···Y（X = P、As、Sb；Y = H2O、NH3）配合物中三卤键与氮族元素键之间的相互作用。两种键均表现出协同效应，与相应的二元配合物相比，三元配合物具有更短的键长、更大的相互作用能和更高的电子密度。通过分析分子静电势、电荷转移和轨道相互作用，探究了三卤键与氮族元素键之间的协同效应。结果表明，三卤键的增强主要归因于静电相互作用，而氮族元素键的强化主要归因于静电和轨道相互作用。此外，还通过能量分解推导了三卤键和氮族元素键的起源。

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BF3···NCXH2···Y（X = P、As、Sb；Y = H2O、NH3）配合物中三卤键与氮族元素键协同效应的理论研究

Theoretical study of the cooperative effects between the triel bond and the pnicogen bond in BF3···NCXH2···Y (X = P, As, Sb; Y = H2O, NH3) complexes.

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