Naslov
Dual-level direct dynamics of the hydroxyl radical reaction with ethane and haloethanes : towards a general reaction parameter method

Autori
Sekušak, Sanja ; Cory, M. ; Bartlett, R. ; Sabljić, Aleksandar

Izvornik
Journal of physical chemistry A (1089-5639) 103 (1999), 51; 11394-11405

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Sažetak
The dynamics of hydroxyl radical reactions with ethane, fluoroethane, and chloroethane have been examined in terms of variational transition state theory augmented with multidimensional semi-classical tunneling corrections. Differences in reactivity for hydrogen abstraction from both the primary and the secondary carbon atoms are examined in terms of energetic and entropic effects on the location of the dynamical bottleneck. Interpolated Variational Transition State Theory is used to calculate reaction rate constants at the [G2(MP2)//MP2/6-31G(d,p)]/SCT level of theory. A vibrational-mode correlation analysis is performed; i.e., the character of the vibrational modes are identified as a function of the reaction coordinate and a statistical diabatic model is used to provide qualitative analysis of a possible vibrational-state specific chemistry for this reaction. A significant enhancement of the reaction rate is predicted for the excitation of the pertinent C-H stretching mode of the reactant hydrocarbon molecule. The standard PM3 Hamiltonian is re-parameterized (via a genetic algorithm) to obtain reliable semi-empirical potential energy surfaces for the reaction of ethane with the OH radical. The specific reaction parameters (SRP) so obtained are then used to predict the reaction rate constants for both the fluoroethane and chloroethane abstraction reactions. The temperature dependence of the rate constants calculated at the [G2(MP2)//MP2/6-31G(d,p)///PM3-SRP]/mOMT level of theory are compared with those of experiment and are found to be in very good agreement. (The computed rate constants differ from experiment by, at most, a factor of 2.5.) We demonstrate that the specific reaction parameters can be used for analogous reactions of the same mechanism, implying a general reaction parameter set (GRP) for related molecules. Perhaps reaction rates for larger hydrocarbons (that are of interest in atmospheric and combustion chemistry) can be obtained reliably at low computational cost.

Izvorni jezik
Engleski

Znanstvena područja
Kemija

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