Issue 1, 2022

Ab initio molecular dynamics with enhanced sampling in heterogeneous catalysis

Abstract

Ab initio molecular dynamics simulations combined with enhanced sampling techniques are becoming widespread methods to investigate chemical phenomena in catalytic systems. These techniques automatically include finite temperature effects, anharmonicity, and collective dynamics in their robust description of enthalpic and entropic contributions, which can have significant impact on reaction free energy landscapes. This contrasts with standard ab initio static approaches that are based on assessing reaction free energies from various coarse-grained descriptions of the reaction potential energy surface. Enhanced sampling ab initio molecular dynamics opens the way to first principles simulations of systems of increasing complexity like solid/liquid catalytic interfaces. In this work, we aim at guiding the reader through the basis of these techniques, summarizing their fundamental theoretical and practical aspects, and reviewing the relevant literature in the field. After a brief introduction to the problem, we will illustrate the advantage of using molecular simulations to include finite temperature effects, examine the most common ab initio techniques currently in use, describe their application to solid state heterogeneous catalysts, and finally critically review the most popular enhanced sampling techniques used in computational catalysis.

Graphical abstract: Ab initio molecular dynamics with enhanced sampling in heterogeneous catalysis

Article information

Article type
Minireview
Submitted
23 Jul 2021
Accepted
08 Oct 2021
First published
12 Oct 2021

Catal. Sci. Technol., 2022,12, 12-37

Author version available

Ab initio molecular dynamics with enhanced sampling in heterogeneous catalysis

G. Piccini, M. Lee, S. F. Yuk, D. Zhang, G. Collinge, L. Kollias, M. Nguyen, V. Glezakou and R. Rousseau, Catal. Sci. Technol., 2022, 12, 12 DOI: 10.1039/D1CY01329G

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