Kinetics and branching fractions of the hydrogen abstraction reaction from methyl butenoates by H atoms

Xiaoyu Li, Xiaoqing You, Chung K. Law, Donald G. Truhlar

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16 Scopus citations

Abstract

In order to explore the hydrogen abstraction reaction kinetics of unsaturated methyl esters by hydrogen atoms, we selected two molecules for study, in particular methyl 3-butenoate and methyl 2-butenoate, whose CC double bonds are at different locations. We first determined an accurate and efficient electronic structure method for the investigation by considering eight hydrogen abstraction reactions and comparing their barrier heights and reaction energies computed using several exchange-correlation density functionals to those obtained from CCSD(T)-F12a/jun-cc-pVTZ coupled cluster calculations. In this way, we found the M06-2X/ma-TZVP method to have the best performance with a mean unsigned deviation from the CCSD(T) calculations of 0.51 kcal mol-1. Based on quantum-chemical calculations by using the M06-2X/ma-TZVP method, we then computed rate constants for 298-2500 K by direct dynamics calculations using multi-structural canonical variational transition state theory including tunneling by the multi-dimensional small-curvature tunneling approximation (MS-CVT/SCT). The computed transmission coefficients were compared with those obtained using the zero-curvature tunneling (ZCT) and one-dimensional Eckart tunneling (ET) approximations. We employed the multi-structural torsional method (MS-T) to include the multiple-structure and torsional potential anharmonic effects. The results show that the variational recrossing transmission coefficients range from 0.6 to 1.0, and the multi-structural torsional anharmonicity introduces a factor of 0.5-2.5 into the rate constant, while the tunneling transmission coefficients obtained by SCT can be as large as 17.4 and differ considerably from those determined by the less accurate ZCT and ET approximations. In addition, independent of the location of the CC double bond, the dominant hydrogen abstraction reactions occur at the allylic sites.

Original languageEnglish (US)
Pages (from-to)16563-16575
Number of pages13
JournalPhysical Chemistry Chemical Physics
Volume19
Issue number25
DOIs
StatePublished - 2017

Bibliographical note

Funding Information:
This work was supported by the National Science Foundation of China (91541122), the Foundation of State Key Laboratory of Coal Combustion (FSKLCCA1701) and grants by the U.S. Department of Energy, Office of Basic Energy Sciences to the Combustion Energy Frontier Research Center (DE-SC0001198) and to the University of Minnesota (DE-SC0015997).

Publisher Copyright:
© the Owner Societies 2017.

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