Electronic structure and surface oxidation of LaNi5, Er6Mn23, and related systems

1 November 1980

journal article
conference paper
Published by AIP Publishing in Journal of Applied Physics

Vol. 51 (11) , 5847-5851
https://doi.org/10.1063/1.327544

Abstract

Photoelectron spectroscopy using synchrotron radiation and bulk samples cleaved in situ has been used to determine the electronic structure of LaNi₅, LaNi₅Ti_0.1, LaNi₅Zr_0.1, and Er₆Mn₂₃. Comparison to analogous measurements of elemental Ni and Mn shows that the occupied states are dominated by the Ni‐ and Mn‐derived d bands. Exposure to oxygen (up to ∼100 L of O₂ at 300 °K) unambiguously results in an oxidized state for Ni and Mn at the suface.

This publication has 16 references indexed in Scilit:

Surface effects and the formation of metal hydrides
Journal of the Less Common Metals, 1980
Two-Electron Resonance at the $3 p$ Threshold of Cu and Ni
Physical Review Letters, 1979
Photon polarisation effects in angle-integrated photoemission spectroscopy: a simple experimental geometry
Journal of Physics E: Scientific Instruments, 1979
Mechanism of hydrogen absorption by lanthanum-nickel (LaNi5)
The Journal of Physical Chemistry, 1979
Core-hole screening in lanthanide metals
Physical Review B, 1978
Self-Restoring of the Active Surface in the Hydrogen Sponge La ${Ni}_{5}$
Physical Review Letters, 1978
Fractional parentage methods for ionisation of open shells of d and f electrons
Published by Springer Nature ,1975
Line Shape of the $3 p$ Excitation in the Electron Energy-Loss Spectrum of Nickel Metal
Physical Review Letters, 1974
Magnetic properties of antiferromagnetic two-singlet systems. I. Theoretical phase diagram
Journal de Physique, 1973
Photoemission Energy-Level Measurements of Chemisorbed CO and O on Ni
Physical Review Letters, 1971