Quantum mechanical study of H(g)+Cl–Au(111): Eley–Rideal mechanism
- 15 May 1994
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 100 (10), 7687-7695
- https://doi.org/10.1063/1.466862
Abstract
Beams of atomic hydrogen are known to react with halogens adsorbed on metal surfaces, and an Eley–Rideal mechanism has been suggested. The collinear reaction of gas phase H with Cl atoms adsorbed on an Au(111) surface is explored using time dependent quantum techniques. Probabilities for reaction and reflection are computed as a function of incident H energy and Cl–metal vibrational state. The time evolution is examined and a long lived intermediate is found to exist in which the Cl is bound to both the H and the metal. The probability for Eley–Rideal reaction is found to be small, on the order of a few to several percent, due primarily to the mass mismatch. The vibrational distribution of the product HCl and the temperature dependence of the reaction probability are in agreement with experiment.Keywords
This publication has 48 references indexed in Scilit:
- Predicting observables on different potential energy surfaces using feature sensitivity analysis: Application to the collinear H+H2 exchange reactionThe Journal of Chemical Physics, 1992
- The influence of potential energy surface topologies on the dissociation of H2The Journal of Chemical Physics, 1990
- Recombinative Desorption of Vibrationally Excitedfrom Clean Pd(100)Physical Review Letters, 1989
- On the dynamics of the associative desorption of H2The Journal of Chemical Physics, 1988
- Vibrational Excitation of Hydrogen via Recombinative Desorption of Atomic Hydrogen Gas on a Metal SurfacePhysical Review Letters, 1988
- Dynamical parameters of desorbing moleculesSurface Science Reports, 1985
- Recombinative desorption dynamics: Molecular hydrogen from Cu(110) and Cu(111)The Journal of Chemical Physics, 1985
- A Fourier method solution for the time dependent Schrödinger equation: A study of the reaction H++H2, D++HD, and D++H2The Journal of Chemical Physics, 1983
- Atomic recombination dynamics on solid surfaces: Effect of various potentialsThe Journal of Chemical Physics, 1977
- Atomic recombination dynamics on a solid surface: H2+W(001)The Journal of Chemical Physics, 1976