硫属元素键涉及锌(II)/镉(II)碳酸盐及其由 Spodium 键增强。

Chalcogen Bond Involving Zinc(II)/Cadmium(II) Carbonate and Its Enhancement by Spodium Bond.

机构信息

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

出版信息

Molecules. 2021 Oct 26;26(21):6443. doi: 10.3390/molecules26216443.

DOI:10.3390/molecules26216443

PMID:34770852

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8588527/

Abstract

Carbonate MCO (M = Zn, Cd) can act as both Lewis acid and base to engage in a spodium bond with nitrogen-containing bases (HCN, NHCH, and NH) and a chalcogen bond with SeHX (X = F, Cl, OH, OCH, NH, and NHCH), respectively. There is also a weak hydrogen bond in the chalcogen-bonded dyads. Both chalcogen and hydrogen bonds become stronger in the order of F > Cl > OH > OCH > NH > NHCH. The chalcogen-bonded dyads are stabilized by a combination of electrostatic and charge transfer interactions. The interaction energy of chalcogen-bonded dyad is less than -10 kcal/mol at most cases. Furthermore, the chalcogen bond can be strengthened through coexistence with a spodium bond in N-base-MCO-SeHX. The enhancement of chalcogen bond is primarily attributed to the charge transfer interaction. Additionally, the spodium bond is also enhanced by the chalcogen bond although the corresponding enhancing effect is small.

摘要

碳酸盐 MCO（M = Zn、Cd）可以作为路易斯酸和碱，分别与含氮碱基（HCN、NHCH 和 NH）形成 spodium 键，与 SeHX（X = F、Cl、OH、OCH、NH 和 NHCH）形成硫属键。硫属键合的偶联物中还存在较弱的氢键。硫属键和氢键的强度顺序为 F > Cl > OH > OCH > NH > NHCH。硫属键合的偶联物通过静电和电荷转移相互作用稳定。硫属键合偶联物的相互作用能在大多数情况下小于-10 kcal/mol。此外，通过在 N-碱基-MCO-SeHX 中存在 spodium 键，可以增强硫属键。硫属键的增强主要归因于电荷转移相互作用。此外，尽管增强效果较小，但硫属键也可以增强 spodium 键。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/57ef/8588527/e533b8a9ee2d/molecules-26-06443-g001.jpg

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硫属元素键涉及锌(II)/镉(II)碳酸盐及其由 Spodium 键增强。

Chalcogen Bond Involving Zinc(II)/Cadmium(II) Carbonate and Its Enhancement by Spodium Bond.

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