Corrigendum to “Soft tissue measurement of arsenic and selenium in an animal model using portable X-ray fluorescence” [Radiat. Phys. Chem. 116 (2015) 241–247]
“…Performing in vivo measurement of As and Se in human tissue, Fleming et al 339 tested, for the rst time, the previously developed portable XRF technique using animal tissue. The model consisted of a miniature X-ray tube of 40 kV voltage and 20 mA tube current, a collimator, and a PIN diode X-ray detector.…”
This review covers developments in and applications of XRF techniques such as EDXRF, WDXRF, TXRF, XRF microscopy using technologies such as synchrotron sources, X-ray optics, X-ray tubes and detectors in laboratory, mobile and hand-held systems.
“…Performing in vivo measurement of As and Se in human tissue, Fleming et al 339 tested, for the rst time, the previously developed portable XRF technique using animal tissue. The model consisted of a miniature X-ray tube of 40 kV voltage and 20 mA tube current, a collimator, and a PIN diode X-ray detector.…”
This review covers developments in and applications of XRF techniques such as EDXRF, WDXRF, TXRF, XRF microscopy using technologies such as synchrotron sources, X-ray optics, X-ray tubes and detectors in laboratory, mobile and hand-held systems.
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