The first full dimensional quantum calculations of the rate coefficient of the N + N2 reaction performed on a model potential energy surface evidencing the bent nature of the transition state are presented. The cal- culated estimates of the quantum rate coefficients are compared with the corresponding values obtained from a semiclassical treatment both to analyze the validity of the used computational procedures and to single out the various contributions to reactivity. J shifting and transition state model treatments have also been considered in order to evaluate their applicability for improving the convergence of the calculations.
Full dimensional quantum versus semiclassical reactivity for the bent transition state reaction N + N2.
FAGINAS LAGO, Maria Noelia;LAGANA', Antonio
2008
Abstract
The first full dimensional quantum calculations of the rate coefficient of the N + N2 reaction performed on a model potential energy surface evidencing the bent nature of the transition state are presented. The cal- culated estimates of the quantum rate coefficients are compared with the corresponding values obtained from a semiclassical treatment both to analyze the validity of the used computational procedures and to single out the various contributions to reactivity. J shifting and transition state model treatments have also been considered in order to evaluate their applicability for improving the convergence of the calculations.File in questo prodotto:
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