Release of iodine from organic matter in natural water by K sub(2)S sub(2)O sub(8) oxidation for super(129)I determination

Accelerator mass spectrometry is the only method for measuring super(129)I in low level environmental samples. In this method, it is essential to convert organic associated iodine into inorganic form for the determination of total super(129)I or organic super(129)I because AgI is usually adopted as...

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Bibliographic Details
Published in:Analytical methods 2012-12, Vol.5 (2), p.449-456
Main Authors: Dang, Haijun, Hou, Xiaolin, Roos, Per, Nielsen, Sven P
Format: Article
Language:English
Subjects:
Accelerators
Anion exchanging
Iodine
Low level
Mathematical analysis
Optimization
Oxidation
Solvent extraction
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Summary:Accelerator mass spectrometry is the only method for measuring super(129)I in low level environmental samples. In this method, it is essential to convert organic associated iodine into inorganic form for the determination of total super(129)I or organic super(129)I because AgI is usually adopted as a target for AMS measurement of super(129)I. The chemical oxidative method to release iodine from organic matter in natural water was investigated using anion exchange chromatography and CHCl sub(3) extraction methods. K sub(2)S sub(2)O sub(8) was confirmed to be an ideal oxidative reagent for decomposing organic matters and converting organic iodine to inorganic form. More than 95% of iodine in natural water can be separated by solvent extraction after oxidation under optimal conditions, and the isotopic exchange of iodine in inorganic and organic forms was well completed during the oxidation, being able to result in an identical super(129)I/ super(127)I ratio as in the original water. Our works indicate that the reported chemical oxidation method is a suitable approach for releasing organic associated iodine in natural water to allow separation of iodine and preparation of the AgI target for AMS measurement.
ISSN:1759-9660
1759-9679
DOI:10.1039/c2ay25958c