Traveling waves in the CO oxidation on Pt(110): Theory
- 15 September 1992
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 97 (6) , 4555-4563
- https://doi.org/10.1063/1.463900
Abstract
A dynamic model designed to describe bistability and kinetic oscillations of the reaction rate during the oxidation of CO on a Pt(110) single crystal surface is extended by incorporating surface diffusion of adsorbed CO in order to analyze the properties of traveling waves propagating on the catalytically active surface. In the range of control parameters (partial pressure of oxygen and carbon monoxide and temperature) which corresponds to excitable dynamics, solitary pulses and periodic wave trains can be triggered. Using both asymptotic and numerical methods, the velocity and shape of the pulses as well as the dispersion relation for periodic wave trains are determined and compared to experimental data where available.This publication has 23 references indexed in Scilit:
- Hyperchaos in a chemical reactionChemical Physics Letters, 1992
- Scaling regime of spiral wave propagation in single-diffusive mediaPhysical Review Letters, 1992
- Spiral core in singly diffusive excitable mediaPhysical Review Letters, 1992
- Solitons in a surface reactionPhysical Review Letters, 1991
- Arrhenius parameters for rate processes on solid surfacesSurface Science Reports, 1991
- Spatiotemporal concentration patterns in a surface reaction: Propagating and standing waves, rotating spirals, and turbulencePhysical Review Letters, 1990
- Diffusion of adsorbates on metal surfacesReports on Progress in Physics, 1990
- Imaging of spatio-temporal pattern evolution during carbon monoxide oxidation on platinumNature, 1990
- Mechanisms of spatial self-organization in isothermal kinetic oscillations during the catalytic CO oxidation on Pt single crystal surfacesThe Journal of Chemical Physics, 1989
- Surface diffusion of hydrogen and CO on Rh(111): Laser-induced thermal desorption studiesThe Journal of Chemical Physics, 1988