Trajectory studies of hot atom reactions. II. An unrestricted potential for CH5

1 July 1974

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 61 (1) , 21-29
https://doi.org/10.1063/1.1681625

Abstract

An approximate empirical potential energy hypersurface has been fitted to a combination of experimental results and molecular structural information, by means of a trajectory analysis, without the restrictions imposed in Part I. On the basis of this, predictions are made for the incident energy dependence of the reactive cross sections when the reactants are T+CH₄, T+CD₄, D+CH₄, H+CD₄, and H+CH₄. The scattering properties and some aspects of the energy disposal in these reactions are also examined, and the most characteristic molecular dynamic features of the reactions are described.

Keywords

This publication has 16 references indexed in Scilit:

Origin of bond energy effects in hot atom chemistry
The Journal of Chemical Physics, 1974
Classical trajectory study of bond energy effects
The Journal of Chemical Physics, 1974
RRKM Theory, the CH3NC Paradox, and the Decomposition of Hot-Atom Substitution Products
The Journal of Chemical Physics, 1972
Potential energy surface for hydrogen abstraction and exchange in the H + CH4 system
Journal of the American Chemical Society, 1972
Isotope effects in the substitution reaction of 2.8-eV tritium atoms with methane
The Journal of Physical Chemistry, 1971
Trajectory Studies of Hot-Atom Reactions. I. Tritium and Methane
The Journal of Chemical Physics, 1970
Infrared matrix isolation spectrum of the methyl radical produced by pyrolysis of methyl iodide and dimethyl mercury
The Journal of Physical Chemistry, 1970
Further Study of the Reaction of Hot Hydrogen with Methane
The Journal of Chemical Physics, 1967
Recoil Tritium Reactions in Methane—Hydrogen Mixtures: CH4—D2
The Journal of Chemical Physics, 1967
Theoretical Studies of Hot-Atom Reactions. I. General Formulation
The Journal of Chemical Physics, 1966