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An Improved Sample Preparation and Analysis Technique for the Determination of Minor Elements in Catalytic Materials by Radio-Isotope Induced X-Ray Fluorescence

Published online by Cambridge University Press:  06 March 2019

John J. LaBrecque
John J. LaBrecque*
Affiliation:
Institute Venezolano de Investigaciones, Cientificas - IVIC, Apartado 1827, Caracas 1010-A, Venezuela
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Summary

An improved method for sample preparation and determination of minor elements in catalytic materials by radioisotope induced X-ray fluorescence is presented. The sample preparation is simple and rapid, it utilizes both and internal standard procedure as well as a thin film technique. Synthetic standards are prepared simply by mixing thoroughly the appropriate amounts of the elements of interest as their respective oxides with the matrix and the internal standard. The above standards are used to calculate the relative-fluorescence ratio factors (FJL) for each element of interest relative to the internal standard.

Some of the different types of deviations (sample preparation, standard counting, instrumental, etc) will be shown for typical determinations applying experimental methods. Finally the application of this technique for the determination of Cobalt, Nickel, Molybdenum, Platinum and Palladium in catalytic materials is presented.

Type
Research Article
Information
Advances in X-Ray Analysis , Volume 24: Twenty-Ninth Annual Conference on Applications of X-ray Analysis, August 4-8, 1980 , 1980 , pp. 393 - 398
Copyright
Copyright © International Centre for Diffraction Data 1980

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References

1. Bertin, E., “Principles and Practices of X-Ray Spectrometry Analysis”, Plenum Press, New York. (1975).Google Scholar
2. LaBrecque, J.J., “The Use of a PDP-11/05 Based Data Acquisition and Analysis System (TN-11) for Automated Isotope Analysis and Non-dispersive X-ray Fluorescence Analysis in the Petroleum Industry”, Proceeding of the III International Conference on Computers in Chemical Research, Education and Technology, P. 6681.Google Scholar
3. LaBrecque, J.J., Journal of Radioanalytical Chemistry 53 (1979) 221.Google Scholar