A transient kinetics study of the reaction of CO with chemisorbed oxygen on platinum
- 15 June 1977
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 66 (12) , 5744-5747
- https://doi.org/10.1063/1.433849
Abstract
Transient pressure‐jump experiments are reported in which the reaction between gas phase carbon monoxide and chemisorbed oxygen on polycrystalline platinum is followed using both CO2 decay and CO titration methods. The experiments are carried out at 540 °K and low pressures below 5×10−7 torr. From the data we conclude that the reaction between chemisorbed oxygen atoms and gas phase carbon monoxide is first order in CO pressure and, at high oxygen atom coverages, zero order in the adsorbed oxygen atom concentration. These results imply that CO impinging on the platinum surface visits several sites during the course of a single encounter.Keywords
This publication has 20 references indexed in Scilit:
- Catalytic oxidation of carbon monoxide on stepped platinum(111) surfacesJournal of Catalysis, 1977
- On the mechanism for water formation on PtJournal of Catalysis, 1976
- Molecular beam study of the mechanism of carbon monoxide oxidation on platinum and isolation of elementary stepsJournal of Catalysis, 1976
- Kinetics of the reaction of oxygen with carbon monoxide adsorbed on palladium*1Journal of Catalysis, 1975
- On the mechanism and kinetics of the CO-oxidation reaction on polycrystalline palladium *1II. The kineticsJournal of Catalysis, 1975
- Recent Studies of Chemical Interactions on Surfaces Using Molecular BeamsCatalysis Reviews, 1975
- Surface interactions between chemisorbed species on platinum: Carbon monoxide, hydrogen, oxygen, and methanolJournal of Catalysis, 1974
- Carbon Monoxide Oxidation on a Pt(110) Single Crystal SurfaceJournal of Vacuum Science and Technology, 1972
- Competitive sorption kinetics of oxygen and carbon monoxide on platinum*1Journal of Catalysis, 1970
- The mechanism of the catalytic action of platinum in the reactions 2Co + O2= 2Co2 and 2H2+ O2= 2H2OTransactions of the Faraday Society, 1922