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Investigation of iron(III) reduction and trace metal interferences in the determination of dissolved iron in seawater using flow injection with luminol chemiluminescence detection

Investigation of iron(III) reduction and trace metal interferences in the determination of dissolved iron in seawater using flow injection with luminol chemiluminescence detection
Investigation of iron(III) reduction and trace metal interferences in the determination of dissolved iron in seawater using flow injection with luminol chemiluminescence detection
A detailed investigation into the performance of two flow injection-chemiluminescence (FI-CL) manifolds (with and without a preconcentration column) for the determination of sub-nanomolar dissolved iron (Fe(II) + Fe(III)), following the reduction of Fe(III) by sulphite, in seawater is described. Kinetic experiments were conducted to examine the efficiency of reduction of inorganic Fe(III) with sulphite under different conditions and a rigorous study of the potential interference caused by other transition metals present in seawater was conducted. Using 100M concentrations of sulphite a reduction time of 4 h was sufficient to quantitatively reduce Fe(III) in seawater. Under optimal conditions, cobalt(II) and vanadium(IV)/(III) were the major positive interferences and strategies for their removal are reported. Specifically, cobalt(II) was masked by the addition of dimethylglyoxime to the luminol solution and vanadium(IV)was removed by passing the sample through an 8-hydroxyquinoline column in a low pH carrier stream. Manganese (II) also interfered by suppression of the CL response but this was not significant at typical open ocean concentrations.
0003-2670
259-265
Ussher, Simon J.
089623db-1a7d-42b8-87d1-1f17395373b1
Milne, Angela
39b44fbd-8f5e-40ea-80c9-244c20998020
Landing, William M.
26eb4b62-d05c-42bb-a757-f840915f6576
Attiq-ur-Rehman, Kakar
b8ca16ed-58f4-4ca9-80be-374d101d7929
Séguret, Marie J.M.
4000326c-3e77-4de4-87b3-08d2d2b30817
Holland, Toby
a338db8c-3651-44fe-923f-8eb61d2c4d7f
Achterberg, Eric P.
685ce961-8c45-4503-9f03-50f6561202b9
Nabi, Abdul
b5e74d4f-deda-414a-a7a8-529efe2a9f87
Worsfold, Paul J.
27675f89-7eee-45c5-821e-a381d8db9693
Ussher, Simon J.
089623db-1a7d-42b8-87d1-1f17395373b1
Milne, Angela
39b44fbd-8f5e-40ea-80c9-244c20998020
Landing, William M.
26eb4b62-d05c-42bb-a757-f840915f6576
Attiq-ur-Rehman, Kakar
b8ca16ed-58f4-4ca9-80be-374d101d7929
Séguret, Marie J.M.
4000326c-3e77-4de4-87b3-08d2d2b30817
Holland, Toby
a338db8c-3651-44fe-923f-8eb61d2c4d7f
Achterberg, Eric P.
685ce961-8c45-4503-9f03-50f6561202b9
Nabi, Abdul
b5e74d4f-deda-414a-a7a8-529efe2a9f87
Worsfold, Paul J.
27675f89-7eee-45c5-821e-a381d8db9693

Ussher, Simon J., Milne, Angela, Landing, William M., Attiq-ur-Rehman, Kakar, Séguret, Marie J.M., Holland, Toby, Achterberg, Eric P., Nabi, Abdul and Worsfold, Paul J. (2009) Investigation of iron(III) reduction and trace metal interferences in the determination of dissolved iron in seawater using flow injection with luminol chemiluminescence detection. Analytica Chimica Acta, 652 (1-2), 259-265. (doi:10.1016/j.aca.2009.06.011).

Record type: Article

Abstract

A detailed investigation into the performance of two flow injection-chemiluminescence (FI-CL) manifolds (with and without a preconcentration column) for the determination of sub-nanomolar dissolved iron (Fe(II) + Fe(III)), following the reduction of Fe(III) by sulphite, in seawater is described. Kinetic experiments were conducted to examine the efficiency of reduction of inorganic Fe(III) with sulphite under different conditions and a rigorous study of the potential interference caused by other transition metals present in seawater was conducted. Using 100M concentrations of sulphite a reduction time of 4 h was sufficient to quantitatively reduce Fe(III) in seawater. Under optimal conditions, cobalt(II) and vanadium(IV)/(III) were the major positive interferences and strategies for their removal are reported. Specifically, cobalt(II) was masked by the addition of dimethylglyoxime to the luminol solution and vanadium(IV)was removed by passing the sample through an 8-hydroxyquinoline column in a low pH carrier stream. Manganese (II) also interfered by suppression of the CL response but this was not significant at typical open ocean concentrations.

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Published date: 2009
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Local EPrints ID: 69597
URI: http://eprints.soton.ac.uk/id/eprint/69597
DOI: doi:10.1016/j.aca.2009.06.011
ISSN: 0003-2670
PURE UUID: 1629c315-d5b9-4b52-a821-4db7076393c6

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Date deposited: 16 Nov 2009
Last modified: 13 Mar 2024 19:36

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Contributors

Author: Simon J. Ussher
Author: Angela Milne
Author: William M. Landing
Author: Kakar Attiq-ur-Rehman
Author: Marie J.M. Séguret
Author: Toby Holland
Author: Eric P. Achterberg
Author: Abdul Nabi
Author: Paul J. Worsfold

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