Rudolf O. Müller (auth.)
In recent years the x-ray fluorescence technique has become increasingly important in modern analysis and production control; it can be classified as a spectroscopical method for the...
This review covers characteristics and potential applications of various versions of the X-ray fluorescence (XRF) spectrometry for analyzing both liquid and solid samples. Particular emphasis is given to research published within the past decade, as information on XRF’s previous applications can be found in earlier reviews and ...
X-ray fluorescence analysis can be thought of as spectrochemical analysis within an X-ray region. It has the same characteristics as atomic absorption spectrometry and optical emission spectrometry except that the sample does not need to be dissolved in a solution to be analyzed. Flameless atomic absorption spectrometry (FLAAS) atomizes the ...
The spectrochemical analysis technique by X-ray fluorescence (XRF) allows to obtain the chemical analyses, in elements; such analyses can be expressed as atoms per cent or as atoms by weight per cent or as oxides by weight per cent.
I Principles and Qualitative Analysis.- 1. Absorption and Scattering of X-Rays.- 2. Characteristic Emission Spectra.- 3. Photoelectrons, Fluorescent Yields, and Auger Electrons.- 4. Qualitative Analysis.- 4.1. General Remarks.- 4.2. Anomalous Intensities of Lines in a Spectrum.- 5. Fluorescent Intensity of a Pure Element.- 5.1. Derivation of the Intensity Formula.- 5.2. Dependence of ...
methods are those based on the use of X-ray fluorescence spectrometry. The X-ray fluorescence method is a means of qualitatively and quantitatively determining elements by measurement of the wavelengths and intensities of characteristic emissions. The technique is applicable to all but the very low
Spectrochemical analysis by X-ray fluorescence. by. Müller, Rudolf Olimpio. Publication date. 1972. Topics. X-ray spectroscopy. Publisher. New York, Plenum Press.