High Resolution K Capture X-ray Fluorescence Spectroscopy: A New Tool for Chemical Characterization
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Publication date
1999-06-05
Authors
Bergmann, Uwe
Glatzel, P.
Groot, F.M.F. de
Cramer, S.P.
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Article
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Abstract
The ability to probe specific chemical sites in complex systems would make X-ray spectroscopy a far more versatile spectroscopic tool. In vibrational and magnetic resonance spectroscopies, isotopic substitution is commonly employed to allow characterization of particular species. Except in a few special cases, such as gas-phase spectra of light elements, isotope effects are too small to be observed in X-ray absorption spectra. An alternative approach is to examine the X-ray emission that results after electron capture by a radioactive isotope.^1,2 Controlled introduction of electron-capture isotopes could result in specific labeling of chemically distinct sites. In this paper, we show that highresolution electron capture fluorescence spectra can be obtained on a reasonable time scale. Chemical shifts in these spectra can be used to identify elemental spin states, oxidation states, and even the types of neighboring atoms. In the electron-capture process an inner shell electron reacts with a nuclear proton to yield a neutron and a neutrino.