Mechanism of Chemisorption, Place Exchange, and Oxidation on a (100) Nickel Surface
- 1 October 1961
- journal article
- research article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 32 (10) , 1933-1937
- https://doi.org/10.1063/1.1728265
Abstract
Results obtained by low‐energy electron‐diffraction and photoelectric work‐function measurements indicate that the following features result from exposure to oxygen at room temperature. Initial adsorption occurs in an amorphous molecular form. Some of the adsorbed molecules diffuse over the surface to lattice‐defect sites where they dissociate. The resulting atoms form in a lattice structure surrounding the defect site. With continued exposure to oxygen, a place exchange between some oxygen and nickel atoms occurs to form a single‐spaced simple‐square structure with a slight increase in the lattice constant. This place exchange immediately precedes, in exposure, the formation of the oxide structure of the rock‐salt type. The work function of clean (100) nickel depends on the type of anneal. φ=5.08 ev after argon ion bombardment, φ=5.12 ev after a small anneal, φ=5.22 ev after a more complete anneal.This publication has 10 references indexed in Scilit:
- Oxygen on NickelJournal of Applied Physics, 1960
- Photoelectric measurements on nickel and nickel oxide filmProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1960
- Analysis of Composite Spectral?Sensitivity FunctionsAustralian Journal of Physics, 1959
- Influence of lattice-defect density on the chemisorption and oxide formation on a clean (100) crystal face of Nickel as determined by low-energy electron diffractionJournal of Physics and Chemistry of Solids, 1959
- Adsorption of Oxygen and Carbon Monoxide on TungstenJournal of Applied Physics, 1958
- Application of the Ion Bombardment Cleaning Method to Titanium, Germanium, Silicon, and Nickel as Determined by Low-Energy Electron DiffractionJournal of Applied Physics, 1958
- Observations on the Photoelectric Work Functions and Low Speed Electron Diffraction from Thin Films of Silver on the (100) Face of a Silver Single CrystalPhysical Review B, 1952
- Changes in Work Functions of Vacuum Distilled Gold FilmsPhysical Review B, 1952
- Effect of the Type of Support on the Photoelectric Work Function of Silver FilmsPhysical Review B, 1950
- The Analysis of Photoelectric Sensitivity Curves for Clean Metals at Various TemperaturesPhysical Review B, 1931