The simultaneous determination of traces of selenium and mercury in organic compounds by X-ray fluorescence

The well-known toxic effects of arsenic make the need for g sensitive trace analysis method imperative. Typical environmental monitoring programs for arsenic generate large numbers of samples. A wide range of other elements can be expected along with arsenic, and so the method must be adaptable to t

Selenium is determined in the ng g-' to rg g-' range in biological and environmental samples. A wet digestion procedure was optimized with respect to volatility losses and recovery yields, by using "Se metabolically incorporated into rat organs. Selenium is preconcentrated from the digestion liquid

Capillary electrophoresis (CE) with indirect fluorescence detection was used to analyze selenium (selenite, selenate, selenomethionine, and selenocystine) and antimony (antimonite and antimonate) compounds. The separation was achieved by CE in 6 min with a 1.2 mM fluorescein solution at pH 9.5. Fluo

Photon-induced X-ray fluorescence is used to determine elements in human whole blood samples. The method is reliable and has a good sensitivity for a wide range of elements. The simplicity of the technique and the associated instruments makes the method suitable for use in hospitals.

A method for the analysis of trace concentrations of lead by Energy-Dispersive x-Ray Fluorescence spectrometry when arsenic is also present in the sample is described. To apply the method, the PbLp-line, emitted from the sample to be analyzed, must be available and it cannot interfere with x-ray pea