Theoretical insights and quantitative prediction of the nature of boron–chalcogen (O, S, Se, Te) interactions using the electron density and the electron localisation function (ELF)

Local electronic structure of organoboron compound with B-S bond. In this study, we have performed theoretical analysis of 27 experimentally known organoboron compounds with B-Ch (Ch = O, S, Se, Te) bonds from the perspective of topological analysis of the electron localisation function (ELF) and th...

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Bibliographic Details
Published in:Polyhedron 2021-12, Vol.210, p.115495, Article 115495
Main Authors: Michalski, Michal, Gordon, Agnieszka J., Berski, Slawomir
Format: Article
Language:English
Subjects:
AIM
boron
chalcogen
ELF
organoboron
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Summary:Local electronic structure of organoboron compound with B-S bond. In this study, we have performed theoretical analysis of 27 experimentally known organoboron compounds with B-Ch (Ch = O, S, Se, Te) bonds from the perspective of topological analysis of the electron localisation function (ELF) and the electron density. [Display omitted] Local electronic structure of the boron-chalcogen bond B-Ch (Ch = O, S, Se, Te) has been investigated from the perspective of topological analysis of the electron localisation function (ELF) and the electron density. Calculations were carried out for H3BO3 and 27 experimentally known organoboron compounds with B-Ch bonds deposited in Cambridge Structural Database (CSD), and showed that the B-Ch bonds are covalent with similar values of basin populations (1.50–2.26e). They can be characterised as 2-center-2-electron bonds and the nature of the B-O bond differs from the B-Ch (Ch = S, Se, Te) bonds. The AIM analysis shows positive values of the Laplacian of ρ(r) for BCP characterising the B-O bonding and negative values for the B-Ch (Ch = S, Se, Te) bonding. The covalency of the B-O bond may come from dative mechanism. The topological analysis of the ELF shows the B-O bond exhibits the highest median polarity of 0.82 among the studied B-Ch bonds, mainly formed by electrons from the O atom. Polarity is clearly smaller for B-Ch (Ch = S, Se, Te) bonds and its values are between 0.03 and 0.55. The covalency of the boron-chalcogen bond, predicted by calculating differences between electronegativity values is anticorrelated with the basin population for the V(B,Ch) basin.
ISSN:0277-5387
DOI:10.1016/j.poly.2021.115495