Issue 27, 2024

Modeling the kinetics of hydrogen abstraction reactions in nitrogen-containing compounds via group additivity

Abstract

New group additivity values are presented to enable the modeling of a broad range of intermolecular hydrogen abstraction reactions involving nitrogen-containing compounds. From a dataset of 316 reaction rate coefficients calculated at the CBS-QB3 level of theory in the high-pressure limit, 76 group additivity values and 14 resonance corrections have been estimated. The influence of substituents on both the attacked hydrogen and attacking radical, being a carbon or nitrogen atom, has been investigated systematically. The new group additivity models can be applied to approximate the Arrhenius parameters of hydrogen abstraction reactions of nitrogen-containing compounds by hydrogen atoms, carbon-centered and nitrogen-centered radicals in the 300–1800 K temperature range. Complementary to the group additivity model, correlations for the tunneling coefficients, which depend on both the temperature and the activation energy of the reaction in the exothermic direction, have been generated. The good performance of the new group additivity schemes has been demonstrated using a test set of reactions. At 1000 K, the rate coefficients for all test set reactions are approximated on average within a factor of 1.45, 1.47 and 1.34, for the hydrogen abstractions with a reactive center of the type H–H–N, N–H–N and C–H–N respectively.

Graphical abstract: Modeling the kinetics of hydrogen abstraction reactions in nitrogen-containing compounds via group additivity

Supplementary files

Article information

Article type
Paper
Submitted
20 Feb 2024
Accepted
14 Jun 2024
First published
27 Jun 2024

Phys. Chem. Chem. Phys., 2024,26, 18763-18775

Modeling the kinetics of hydrogen abstraction reactions in nitrogen-containing compounds via group additivity

C. A. R. Pappijn, R. Van de Vijver, M. K. Sabbe, M. Reyniers, G. B. Marin and K. M. Van Geem, Phys. Chem. Chem. Phys., 2024, 26, 18763 DOI: 10.1039/D4CP00726C

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