Mo Lixin, Zeng Yanli, Li Xiaoyan, Zhang Xueying, Meng Lingpeng
College of Physics Science and Information Engineering, Hebei Normal University, Shijiazhuang, 050024, People's Republic of China.
Huihua College, Hebei Normal University, Shijiazhuang, 050091, People's Republic of China.
J Mol Model. 2016 Jul;22(7):167. doi: 10.1007/s00894-016-3037-6. Epub 2016 Jun 24.
The capacity of SX2 (X = F, Cl, and Br) to engage in different kinds of noncovalent bonds was investigated by ab initio calculations. SCl2 (SBr2) has two σ-holes upon extension of Cl (Br)-S bonds, and two σ-holes upon extension of S-Cl (Br) bonds. SF2 contains only two σ-holes upon extension of the F-S bond. Consequently, SCl2 and SBr2 form chalcogen and halogen bonds with the electron donor H2CO while SF2 forms only a chalcogen bond, i.e., no F···O halogen bond was found in the SF2:H2CO complex. The S···O chalcogen bond between SF2 and H2CO is the strongest, while the strongest halogen bond is Br···O between SBr2 and H2CO. The nature of these two types of noncovalent interaction was probed by a variety of methods, including molecular electrostatic potentials, QTAIM, energy decomposition, and electron density shift maps. Termolecular complexes X2S···H2CO···SX'2 (X = F, Cl, Br, and X' = Cl, Br) were constructed to study the interplay between chalcogen bonds and halogen bonds. All these complexes contained S···O and Cl (Br)···O bonds, with longer intermolecular distances, smaller values of electron density, and more positive three-body interaction energies, indicating negative cooperativity between the chalcogen bond and the halogen bond. In addition, for all complexes studied, interactions involving chalcogen bonds were more favorable than those involving halogen bonds. Graphical Abstract Molecular electrostatic potential and contour map of the Laplacian of the electron density in Cl2S···H2CO···SCl2 complex.
通过从头算计算研究了SX2(X = F、Cl和Br)形成不同类型非共价键的能力。SCl2(SBr2)在Cl(Br)-S键伸长时有两个σ-空穴,在S-Cl(Br)键伸长时也有两个σ-空穴。SF2在F-S键伸长时仅含有两个σ-空穴。因此,SCl2和SBr2与电子供体H2CO形成硫族元素键和卤键,而SF2仅形成硫族元素键,即在SF2:H2CO配合物中未发现F···O卤键。SF2与H2CO之间的S···O硫族元素键最强,而SBr2与H2CO之间最强的卤键是Br···O。通过多种方法探究了这两种类型非共价相互作用的本质,包括分子静电势、量子拓扑原子理论(QTAIM)、能量分解和电子密度位移图。构建了三分子配合物X2S···H2CO···SX'2(X = F、Cl、Br,X' = Cl、Br)以研究硫族元素键和卤键之间的相互作用。所有这些配合物都包含S···O和Cl(Br)···O键,分子间距离更长,电子密度值更小,三体相互作用能更正,表明硫族元素键和卤键之间存在负协同效应。此外,对于所有研究的配合物,涉及硫族元素键的相互作用比涉及卤键的相互作用更有利。图形摘要 Cl2S···H2CO···SCl2配合物的分子静电势和电子密度拉普拉斯的等高线图。
