Ab initio direct dynamics study of OH+HCl→Cl+H2O
- 8 March 1997
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 106 (10) , 3926-3933
- https://doi.org/10.1063/1.473981
Abstract
We report the first-principles computation of rate constants for atmospheric reactions, by combining variational transition state theory (VTST) and high-level electronic structure theory. Extending the direct dynamics approach, the rate constants for OH+HCl were computed, directly, using ab initio electronic structure theory at the second-order many-body perturbation theory [MBPT(2)] and coupled-cluster singles-and-doubles with a perturbative triples correction [CCSD(T)] levels and variational transition state theory including tunneling. The computed room-temperature rate constant, 7.03×10−13 cm3 molecule−1 s−1, is in good agreement with experiment (8.0×10−13). The rate constant was computed over the temperature range 138–1055 K. The methods developed in this work are quite general, and can be applied to obtain rate constants for many reactions of interest in atmospheric and combustion chemistry, in the absence of experiment.Keywords
This publication has 30 references indexed in Scilit:
- POLYRATE 6.5: A new version of a computer program for the calculation of chemical reaction rates for polyatomicsComputer Physics Communications, 1995
- Dual-Level Reaction-Path Dynamics (the /// Approach to VTST with Semiclassical Tunneling). Application to OH + NH3 .fwdarw. H2O + NH2The Journal of Physical Chemistry, 1995
- Electronic structure computations and theoretical chemical kinetics: developments at the interfaceComputer Physics Communications, 1994
- Variational transition-state theory and semiclassical tunnelling calculations with interpolated corrections: a new approach to interfacing electronic structure theory and dynamics for organic reactionsJournal of the Chemical Society, Faraday Transactions, 1994
- MORATE: a program for direct dynamics calculations of chemical reaction rates by semiempirical molecular orbital theoryComputer Physics Communications, 1993
- Potential energy surfaces for polyatomic reaction dynamicsChemical Reviews, 1987
- Kinetic study of the reaction of OH with HCl from 240–1055 KInternational Journal of Chemical Kinetics, 1985
- The rate of the reaction of OH with HClInternational Journal of Chemical Kinetics, 1984
- A full coupled-cluster singles and doubles model: The inclusion of disconnected triplesThe Journal of Chemical Physics, 1982
- History of H3 KineticsAnnual Review of Physical Chemistry, 1976