The solvation dynamics of CO2 by quantum mechanical molecular dynamics

No Thumbnail Available

Date

2023

Journal Title

Journal ISSN

Volume Title

Publisher

Daffodil International University

Abstract

The solvation dynamics of CO2 in an aqueous solution were investigated using quantum mechanical molecular mechanical molecular dynamics (QM/MM-MD) simulations. It is demonstrated that the formation of H2CO3 occurs through direct reactions between CO2 and nH2O, with extremely high activation barriers in the gas phase. However, in a solution, the activation energy decreases as the number of H2O molecules increases. Specifically, for the CO2 − H2O system, the activation energy is about 32 kcal/mol, while for the CO2 − 2H2O and CO2 − 3H2O systems, it decreases to 28 kcal/mol and 15 kcal/mol, respectively. These findings suggest that the solvation of CO2 in a solution favors a step-wise mechanism.

Description

Keywords

quantum mechanical, solvation dynamics, molecular dynamics, CO2 − H2O system

Citation

Collections

Endorsement

Review

Supplemented By

Referenced By