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单水合和二水合卤代苯中的卤键

Halogen bonding in mono- and dihydrated halobenzene.

作者信息

Hogan Simon W L, van Mourik Tanja

机构信息

EaStCHEM School of Chemistry, University of St Andrews, North Haugh, St Andrews, Scotland, United Kingdom.

出版信息

J Comput Chem. 2019 Jan 30;40(3):554-561. doi: 10.1002/jcc.25733. Epub 2018 Dec 14.

Abstract

Density functional theory calculations were performed on halogen-bonded and hydrogen-bonded systems consisting of a halobenzene (XPh; X = F, Cl, Br, I, and At) and one or two water molecules, using the M06-2X density functional with the 6-31+G(d) (for C, H, F, Cl, and Br) and aug-cc-pVDZ-PP (for I, At) basis sets. The counterpoise procedure was performed to counteract the effect of basis set superposition error. The results show halogen bonds form in the XPh-H O system when X > Cl. There is a trend toward stronger halogen bonding as the halogen group is descended, as assessed by interaction energy and X•••O internuclear separation (where O is the water oxygen). For all XPh-H O systems hydrogen-bonded systems exist, containing a combination of CH•••O and O H •••X hydrogen bonds. For all systems except X = At the X•••H hydrogen-bonding interaction is stronger than the X•••O halogen bond. In the XPh-(H O) system halogen bonds form only for X > Br. The two water molecules prefer to form a water dimer, either located around the CH bond (for X = Br, At, and I) or located above the benzene ring (for all halogens). Thus, even in the absence of competing strong interactions, halogen bonds may not form for the lighter halogens due to (1) competition from cooperative weak interactions such as CH•••O and OH•••X hydrogen bonds, or (2) if the formation of the halogen bond would preclude the formation of a water dimer. © 2018 Wiley Periodicals, Inc.

摘要

使用M06 - 2X密度泛函以及6 - 31 + G(d)(用于C、H、F、Cl和Br)和aug - cc - pVDZ - PP(用于I、At)基组,对由卤代苯(XPh;X = F、Cl、Br、I和At)与一个或两个水分子组成的卤键和氢键体系进行了密度泛函理论计算。采用了Counterpoise程序来抵消基组叠加误差的影响。结果表明,当X > Cl时,在XPh - H₂O体系中形成卤键。通过相互作用能和X∙∙∙O核间距(其中O为水分子中的氧)评估,随着卤族元素的下移,卤键有变强的趋势。对于所有XPh - H₂O体系,均存在氢键体系,其中包含CH∙∙∙O和OH∙∙∙X氢键的组合。对于除X = At之外的所有体系,X∙∙∙H氢键相互作用强于X∙∙∙O卤键。在XPh - (H₂O)₂体系中,仅当X > Br时形成卤键。两个水分子倾向于形成水二聚体,其位置要么在CH键周围(对于X = Br、At和I),要么在苯环上方(对于所有卤素)。因此,即使在没有竞争性强相互作用的情况下,由于(1)来自诸如CH∙∙∙O和OH∙∙∙X氢键等协同弱相互作用的竞争,或者(2)如果卤键的形成会排除水二聚体的形成,较轻的卤素可能不会形成卤键。© 2018威利期刊公司。

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