Issue 27, 2019, Issue in Progress

Nature of intramolecular O–H⋯π interactions as elucidated by QTAIM dual functional analysis with QC calculations

Abstract

The intrinsic dynamic and static nature of intramolecular OH–*–π interactions is elucidated using a QTAIM dual functional analysis (QTAIM-DFA) after clarifying the structural features. Asterisks (*) are employed to emphasize the presence of bond critical points (BCPs) on the bond paths (BPs), which correspond to the interactions in question. Data from the fully optimized structures correspond to the static nature of the interactions. In our treatment, data from the perturbed structures, which are based around the fully optimized structure, are employed for the analysis in addition to those from the fully optimized structure, which represent the dynamic nature of the interaction. Seven intramolecular OH–*–C(π) interactions were detected in six-membered rings, with six BPs and BCPs for each, among the 72 conformers of the species examined here (1–15). The interactions are predicted to have a vdW or t-HBnc (typical hydrogen bonds with no covalency) nature, which appeared in the pure closed shell region. They appear to be stronger than the corresponding intermolecular interactions. Nine BPs with BCPs were also detected for the intramolecular O–*–X interactions (X = C(π) and H(π), joined to C(π)) in the 5–7-membered rings. The E(2) values of the interactions, as obtained by NBO, are discussed in relation to the stabilities of the conformers and the BPs with BCPs.

Graphical abstract: Nature of intramolecular O–H⋯π interactions as elucidated by QTAIM dual functional analysis with QC calculations

Supplementary files

Article information

Article type
Paper
Submitted
08 Mar 2019
Accepted
09 May 2019
First published
17 May 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 15521-15530

Nature of intramolecular O–H⋯π interactions as elucidated by QTAIM dual functional analysis with QC calculations

S. Hayashi, T. Nishide and W. Nakanishi, RSC Adv., 2019, 9, 15521 DOI: 10.1039/C9RA01788G

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