Indirect fluorescence detection of phenolic compounds by capillary electrophoresis on a glass device
Indirect fluorescence detection of phenolic compounds by capillary electrophoresis on a glass device
A micromachined capillary electrophoresis system has been fabricated on a glass device for the separation and indirect fluorescence detection of phenols. Using this device two phenols viz., 2,4-dichlorophenol and pentachlorophenol, were separated within 12 s compared to under 19 min on a conventional capillary electrophoresis system using direct ultraviolet detection. The precision of the glass device ranged from 12.7%–16.7% compared to 0.42%–4.9% for the conventional system. Both systems showed good linearity in the concentration range of 0.8– 6.38 mM for the glass device and 5–130 ?M for the conventional system. The relationship between temperature and high voltage with baseline drift was also investigated. These results provide a foundation for the development of a miniaturised chemical analysis system for the on-line analysis of phenols in water.
686-691
Arundell, Martin
e24d3405-a436-4d65-a6e4-2939ede79678
Whalley, Peter D.
2b0de185-77ca-46c3-9757-9dbb24583f94
Manz, A.
d8d789e5-7066-4583-81f2-9d0410d3bbdc
August 2000
Arundell, Martin
e24d3405-a436-4d65-a6e4-2939ede79678
Whalley, Peter D.
2b0de185-77ca-46c3-9757-9dbb24583f94
Manz, A.
d8d789e5-7066-4583-81f2-9d0410d3bbdc
Arundell, Martin, Whalley, Peter D. and Manz, A.
(2000)
Indirect fluorescence detection of phenolic compounds by capillary electrophoresis on a glass device.
Fresenius' Journal of Analytical Chemistry, 367 (8), .
(doi:10.1007/s002160000460).
Abstract
A micromachined capillary electrophoresis system has been fabricated on a glass device for the separation and indirect fluorescence detection of phenols. Using this device two phenols viz., 2,4-dichlorophenol and pentachlorophenol, were separated within 12 s compared to under 19 min on a conventional capillary electrophoresis system using direct ultraviolet detection. The precision of the glass device ranged from 12.7%–16.7% compared to 0.42%–4.9% for the conventional system. Both systems showed good linearity in the concentration range of 0.8– 6.38 mM for the glass device and 5–130 ?M for the conventional system. The relationship between temperature and high voltage with baseline drift was also investigated. These results provide a foundation for the development of a miniaturised chemical analysis system for the on-line analysis of phenols in water.
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Published date: August 2000
Organisations:
Centre for Biological Sciences
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Local EPrints ID: 155783
URI: http://eprints.soton.ac.uk/id/eprint/155783
ISSN: 1432-1130
PURE UUID: 9f9f13c0-6532-4455-82e8-2206563026d5
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Date deposited: 15 Jul 2010 14:20
Last modified: 14 Mar 2024 01:40
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Author:
Peter D. Whalley
Author:
A. Manz
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