Characterization of quaternary metal oxide films by synchrotron X-ray fluorescence microprobe

Publication Type

Journal Article

Date Published

06/1997

Authors

Abstract

A synchrotron X-ray fluorescence microprobe has been used to study the composition and microstructure of pulsed-laser ablation-deposited films of calcium-nickel-potassium oxides that have applications in heterogeneous catalysis. The films, whose individual metal oxide components have widely varying boiling points and thus prevent a solid-phase synthesis with the use of standard thermal techniques, represent a new quaternary metal oxide phase containing the three elements. Experimental conditions for preparing the films are given. The X-ray fluorescence microprobe data are discussed with respect to both the distribution of the three metals in the films at the micrometer lateral spatial resolution level and the presence of trace amounts of metals that were introduced into the films as contaminants in targets made of the parent three-metal oxide

Journal

Applied Spectroscopy

Volume

51

Year of Publication

1997

Issue

12

Notes

LBNL-41165 NOT IN FILE

Organization