Adsorption of CO on a Ni(111) surface
- 15 June 1974
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 60 (12) , 4719-4724
- https://doi.org/10.1063/1.1680972
Abstract
Carbon monoxide adsorbed on Ni(111) forms around θ = 1/3 an ordered √3 × √3/R 30c structure whose unit cell is continuously compressed upon further increasing the coverage until at saturation (θ=0.53 corresponding to 1 × 1015 molecules/cm2) a densely packed layer is reached. The work function increases by 1.31 eV. At θ=1/3 the adsorption energy decreases from its value of 26.5 kcal/mole by 3 kcal/mole. CO adsorption causes the appearance of two peaks at 6 and 14 eV in the electron energy loss spectra, which are ascribed to excitations of electrons from chemisorption levels. The sticking coefficient remains nearly constant up to medium coverages which can be described by a ``precursor'' state model. The results show close similarities with those reported for other nickelsurfaces.Keywords
This publication has 21 references indexed in Scilit:
- Theory of carbon monoxide chemisorption on transition metalsSurface Science, 1974
- LEED intensities from clean and hydrogen covered Ni(100) and Pd(111) surfacesSurface Science, 1973
- Untersuchung über den einfluss von adsorbierten gasen auf die elektronen-energieverlust-spektren einer Ni(110)-oberflächeSurface Science, 1973
- Decomposition of carbon monoxide on a (110) nickel surfaceSurface Science, 1973
- Structural Influences on Adsorption Energy. II. CO on Ni(100)The Journal of Chemical Physics, 1972
- Molecular beam investigation of adsorption kinetics on bulk metal targets: Nitrogen on tungstenSurface Science, 1972
- Photoemission Energy-Level Measurements of Chemisorbed CO and O on NiPhysical Review Letters, 1971
- Structural Influences on Adsorbate Binding Energy. I. Carbon Monoxide on (100) PalladiumThe Journal of Chemical Physics, 1969
- The adsorption of carbon monoxide and carbon dioxide at the (111) face of nickel observed by leedSurface Science, 1969
- Study of adsorbed gas films by electron diffractionPhilosophical Magazine, 1960