The hydroxyl radical is formed through a variety of processes pertinent to natural and anthropogenic systems. Here we report development of a simple and sensitive trap-and-trigger chemiluminescence method based upon the hydroxylation of phthalhydrazide to 5-hydroxy-2,3-dihydro-1,4-phthalazinedione, which emits chemiluminescence when oxidized under alkaline conditions. Cu(III) is employed as an oxidant and is shown to be relatively insensitive to a range of interferences likely to be encountered. The method has been standardized by use of
Journal article
Phthalhydrazide chemiluminescence method for determination of hydroxyl radical production: modifications and adaptations for use in natural systems
Analytical Chemistry, Vol.83(1), pp.261-268
2011
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Abstract
Details
- Title
- Phthalhydrazide chemiluminescence method for determination of hydroxyl radical production: modifications and adaptations for use in natural systems
- Creators
- Christopher J Miller - University of New South WalesAndrew L Rose - Southern Cross UniversityT David Waite - University of New South Wales
- Publication Details
- Analytical Chemistry, Vol.83(1), pp.261-268
- Identifiers
- 1021; 991012820389302368
- Academic Unit
- Faculty of Science and Engineering; Southern Cross GeoScience; Engineering
- Resource Type
- Journal article