Issue 16, 2021

The nature of the intermolecular interaction in (H2X)2 (X = O, S, Se)

Abstract

Hydrogen bonds (HBs) are crucial non-covalent interactions in chemistry. Recently, the occurrence of an HB in (H2S)2 has been reported (Arunan et al., Angew. Chem., Int. Ed., 2018, 57, 15199), challenging the textbook view of H2S dimers as mere van der Waals clusters. We herein try to shed light on the nature of the intermolecular interactions in the H2O, H2S, and H2Se dimers via correlated electronic structure calculations, Symmetry Adapted Perturbation Theory (SAPT) and Quantum Chemical Topology (QCT). Although (H2S)2 and (H2Se)2 meet some of the criteria for the occurrence of an HB, potential energy curves as well as SAPT and QCT analyses indicate that the nature of the interaction in (H2O)2 is substantially different (e.g. more anisotropic) from that in (H2S)2 and (H2Se)2. QCT reveals that the HB in (H2O)2 includes substantial covalent, dispersion and electrostatic contributions, while the last-mentioned component plays only a minor role in (H2S)2 and (H2Se)2. The major contributions to the interactions of the dimers of H2S and H2Se are covalency and dispersion as revealed by the exchange–correlation components of QCT energy partitions. The picture yielded by SAPT is somewhat different but compatible with that offered by QCT. Overall, our results indicate that neither (H2S)2 nor (H2Se)2 are hydrogen-bonded systems, showing how the nature of intermolecular contacts involving hydrogen atoms evolves in a group down the periodic table.

Graphical abstract: The nature of the intermolecular interaction in (H2X)2 (X = O, S, Se)

Supplementary files

Article information

Article type
Paper
Submitted
05 Jan 2021
Accepted
06 Apr 2021
First published
08 Apr 2021

Phys. Chem. Chem. Phys., 2021,23, 10097-10107

The nature of the intermolecular interaction in (H2X)2 (X = O, S, Se)

A. Fernández-Alarcón, J. M. Guevara-Vela, J. L. Casals-Sainz, E. Francisco, A. Costales, Á. Martín Pendás and T. Rocha-Rinza, Phys. Chem. Chem. Phys., 2021, 23, 10097 DOI: 10.1039/D1CP00047K

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