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W3083177863 endingPage "110978" @default.
W3083177863 startingPage "110978" @default.
W3083177863 abstract "Halogen bonds have received increasing interest in non-covalent interactions. Recently, a new kind of non-covalent interaction, spodium bond, was proposed to refer to a net attractive interaction between any element of group 12 and electron rich atoms. Due to strong relativistic effect, Hg is much different from the other group 12 elements, which prefers more linear coordination. Thus, we theoretically studied the model of HgCl2⋯L (where L = ClR, SR2, PR3 families) to explore the nature of the linear coordinated spodium bonds. Analyses of electrostatic potential surfaces, together with ELF, LOL, and chemical bonding analyses, suggest the presence of covalent interaction. Complexes with nitrogen, oxygen, and fluorine donors result in more coulombic component, whereas others are dominated by covalent interaction, indicating coexistence of coulombic and covalent interaction. Besides, covalent interaction is significantly stronger with phosphorus donor. This model can provide intriguing perspectives for future weak intermolecular interactions studies." @default.
W3083177863 created "2020-09-11" @default.
W3083177863 creator A5018259479 @default.
W3083177863 creator A5038851564 @default.
W3083177863 creator A5078198032 @default.
W3083177863 date "2020-11-01" @default.
W3083177863 modified "2023-10-16" @default.
W3083177863 title "Theoretical analysis of the spodium bonds in HgCl2⋯L (L = ClR, SR2, and PR3) dimers" @default.
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W3083177863 doi "https://doi.org/10.1016/j.chemphys.2020.110978" @default.
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