Year: 2025
Author: Haohao Zhang, Chang Zhao, Yanjiang Wang, Wen-Kai Chen, Yanli Zeng
Communications in Computational Chemistry, Vol. 7 (2025), Iss. 2 : pp. 97–103
Abstract
The fixation of ${\rm CO}_2$ is a promising carbon-neutral approach and drawing lots of attention in the past decades. Among lots of fixation of ${\rm CO}_2$ methods, the cycloaddition of ${\rm CO}_2$ into epoxides (CCE) reaction is important because it could generate high value-added products. Recently, employing chalcogen bonding (ChB) catalysts for the CCE reaction has been proposed and offers significant advantages of low price, environmental friendliness, and ease of recycling. In this work, the ChB catalyzed the CCE reaction is investigated by high level theoretical calculations. The reaction can be divided into three subprocesses: ring-opening, nucleophilic addition, and formation of cyclic carbonate. Both Se- and Te-based ChB catalysts have shown the potential for catalyzing the CCE reaction, the overall catalytic performance of Te-based catalysts was superior to the Se-based ones. Overall, the most positive electrostatic potentials of the ChB catalysts, electrostatic term of the ChB binding energies, electron density at the ChB critical points, and electron density difference play important roles in the ChB catalyzed CCE reaction. This work elucidated the ChB catalyzed mechanism of the CCE reaction and provided theoretical guidance for the future development of efficient ChB catalysts for the CCE reaction.
Journal Article Details
Publisher Name: Global Science Press
Language: English
DOI: https://doi.org/10.4208/cicc.2025.70.01
Communications in Computational Chemistry, Vol. 7 (2025), Iss. 2 : pp. 97–103
Published online: 2025-01
AMS Subject Headings: Global Science Press
Copyright: COPYRIGHT: © Global Science Press
Pages: 7
Keywords: chalcogen bonding catalysis ${\rm CO}_2$ fixation density functional theory QTAIM.