2018
DOI: 10.1002/ejic.201701337
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Bond Analysis in Dihalogen–Halide and Dihalogen–Dimethylchalcogenide Systems

Abstract: The bonding in mixed chalcogen/halogen threebody systems of general formula XI···Y (X = Cl, Br, I; Y = I -, EMe 2 ; E = S, Se, Te) is theoretically examined by using different methodologies, namely: charge-displacement (CD) analysis, which quantifies the electronic flux throughout the whole adduct; the energy decomposition analysis combined with natural orbital for chemical valence (EDA-NOCV) method; and zeroth order symmetry adapted perturbation theory (SAPT0), where the latter two methods decompose the contr… Show more

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Cited by 8 publications
(7 citation statements)
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“…Not only that but all the heterotrihalides behave similarly, with a small systematic difference depending on the different polarizability of the systems. For neutral systems involving chalcogen atoms, the CT function has again the same general shape but the extent of the polarization is much lower (0.261 instead of 0.400 e) [62]. Also in this case, the nature of E or X has a little influence on the value of CT, which depends only on the normalized distances.…”
Section: Condensed Phasementioning
confidence: 74%
See 1 more Smart Citation
“…Not only that but all the heterotrihalides behave similarly, with a small systematic difference depending on the different polarizability of the systems. For neutral systems involving chalcogen atoms, the CT function has again the same general shape but the extent of the polarization is much lower (0.261 instead of 0.400 e) [62]. Also in this case, the nature of E or X has a little influence on the value of CT, which depends only on the normalized distances.…”
Section: Condensed Phasementioning
confidence: 74%
“…Therefore, the two topics have been unified in a recent contribution [37]. As a case study, [(NAC)Au(SeU)]BF 4 (NAC = nitrogen acyclic carbene, SeU = selenourea) has been chosen-the selenium can establish XB with polarized halogen atoms [58,62,67], the NAC is an experimental probe for Au → C back-donation, due to the inverse proportionality between the latter and the C-N rotational barrier [27].…”
Section: Condensed Phasementioning
confidence: 99%
“…Binding energy (ΔE bind ) between α-CD and guest in the implicit SMD water was obtained with the supermolecule approach by subtracting the energy of isolated host and guest molecules from that of bound complexes. Based on the so-called chemist's grouping, ΔE bind by SAPT0 calculations is decomposed into electrostatics (ΔE elst ), exchange (ΔE exch ), induction (ΔE ind ), and dispersion (ΔE disp ) terms, 54,55,68 and an empirical scaled SAPT0 (sSAPT0) interaction energy was used for improved performance, as shown by Parker et al 58 The charge-transfer energy (ΔE CT ) is a part of the induction term and was computed using the method by Stone and Misquitta. 57 From PMF profiles of ΔG(ξ), standard binding free energy (ΔG calc 0 ) can be computed with a cylinder approximation (eq 1) 62,69−71…”
Section: Methodsmentioning
confidence: 99%
“…More specifically, the presence of a noncovalent interaction can influence the covalency of a chemical bond. For example, when I 2 establishes a halogen bond, the I–I bond lengthens until, in the extreme cases, it breaks and becomes a halogen bond itself. , In a similar way, the C–Se bond order in selenourea is influenced by the presence of the hydrogen bond (HB) acceptors …”
Section: Introductionmentioning
confidence: 99%