A Quantum Chemical Study of Cation-π Interaction of Lithium Cation-Aromatic Systems

Acta Chimica Sinica ›› 2004, Vol. 62 ›› Issue (19): 1871-1876. Previous Articles Next Articles

锂离子与芳香体系相互作用的量子化学研究

马国正, 俞庆森, 邹建卫, 郑柯文, 张兵, 王艳花

浙江大学宁波理工学院药物分子设计与营养工程重点实验室, 宁波, 315100

投稿日期:2003-12-24 修回日期:2004-05-27 发布日期:2014-02-17
通讯作者: 邹建卫,E-mail:jwzou@css.zju.edu.cn;Tel:0574-88229517. E-mail:jwzou@css.zju.edu.cn
基金资助:
国家自然科学基金(No.20173050)资助项目.

A Quantum Chemical Study of Cation-π Interaction of Lithium Cation-Aromatic Systems

MA Guo-Zheng, YU Qing-Seng, ZOU Jian-Wei, ZHENG Ke-Wen, ZHANG Bing, WANG Yan-Hua

Key Laboratory for Molecular Design and Nutrition Engineering of Ningbo City, Ningbo Institute of Technology, Zhejiang University, Ningbo 315100

Received:2003-12-24 Revised:2004-05-27 Published:2014-02-17

Abstract

A group of 17 lithium cation-aromatic systems has been investigated with MP2 and density functional theory B3LYP at different level. Geometries, charge transfer, binding energies and electrostatic potential have been obtained for all systems both with restricted and unrestricted optimization. For some systems, possible competition of cation-π interaction with cation-heteroatom interaction has been examined. Particularly, a good correlation between binding energy and electrostatic potential at one point above the center of the aromatic rings was established, which shows that electrostatic potential plays an important role in lithium cation-π systems. It is also demonstrated that for designing or evaluating new larger systems, binding energy can be quantitatively predicted by considering only the aromatic electrostatic potential.

Key words: cation-πinteraction, ab initio, DFT, electrostatic potential

Cite this article

MA Guo-Zheng, YU Qing-Seng, ZOU Jian-Wei, ZHENG Ke-Wen, ZHANG Bing, WANG Yan-Hua. A Quantum Chemical Study of Cation-π Interaction of Lithium Cation-Aromatic Systems[J]. Acta Chimica Sinica, 2004, 62(19): 1871-1876.

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锂离子与芳香体系相互作用的量子化学研究

A Quantum Chemical Study of Cation-π Interaction of Lithium Cation-Aromatic Systems

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