Issue 22, 2024
From the journal:

Physical Chemistry Chemical Physics

First-principles mode-specific reaction dynamics

Gábor Czakó, ORCID logo *a   Balázs Gruber,a   Dóra Papp, ORCID logo a   Viktor Tajti, ORCID logo a   Domonkos A. Tasi ORCID logo a  and  Cangtao Yin ORCID logo a  

* Corresponding authors

a MTA-SZTE Lendület Computational Reaction Dynamics Research Group, Interdisciplinary Excellence Centre and Department of Physical Chemistry and Materials Science, Institute of Chemistry, University of Szeged, Rerrich Béla tér 1, Szeged H-6720, Hungary
E-mail: gczako@chem.u-szeged.hu

Abstract

Controlling the outcome of chemical reactions by exciting specific vibrational and/or rotational modes of the reactants is one of the major goals of modern reaction dynamics studies. In the present Perspective, we focus on first-principles vibrational and rotational mode-specific dynamics computations on reactions of neutral and anionic systems beyond six atoms such as X + C2H6 [X = F, Cl, OH], HX + C2H5 [X = Br, I], OH + CH3I, and F + CH3CH2Cl. The dynamics simulations utilize high-level ab initio analytical potential energy surfaces and the quasi-classical trajectory method. Besides initial state specificity and the validity of the Polanyi rules, mode-specific vibrational-state assignment for polyatomic product species using normal-mode analysis and Gaussian binning is also discussed and compared with experiment.

Graphical abstract: First-principles mode-specific reaction dynamics

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Article information

DOI
https://doi.org/10.1039/D4CP00417E
Article type
Perspective
Submitted
29 Jan 2024
Accepted
04 Apr 2024
First published
05 Apr 2024
This article is Open Access
Creative Commons BY-NC license

Phys. Chem. Chem. Phys., 2024,26, 15818-15830

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First-principles mode-specific reaction dynamics

G. Czakó, B. Gruber, D. Papp, V. Tajti, D. A. Tasi and C. Yin, Phys. Chem. Chem. Phys., 2024, 26, 15818 DOI: 10.1039/D4CP00417E

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