Development of a reliable microelectrode dissolved oxygen sensor
Development of a reliable microelectrode dissolved oxygen sensor
This article reports the results of a careful experimental and analytical investigation which led to the development of an accurate and reproducible microelectrode dissolved oxygen sensor. Primarily designed for oceanographic applications but also applicable to environmental and water process monitoring, the sensor measures the diffusion controlled current to a bare Pt microdisc electrode for the reduction of oxygen. A successful reconditioning potential waveform is reported which yields a very stable amperometric response over continuous operation, with a maximum deviation of the limiting current under 1.5% over 24 h. An automated calibration method developed to accurately characterise the electrodes is described. Excellent linearity is obtained for all electrodes tested and in each case, the number of apparent electrons for the reduction of oxygen is reported. As an alternative to calibration, an analytical treatment which accounts for temperature and salinity effects is given to calculate the dissolved oxygen concentration directly from the limiting current. While the analytical approach yields a concentration relative error circa 11% for a 50 ?m diameter Pt disc, the calibration, has lower errors and yields a detection limit down to 0.9 ?M with the same disc. Although this investigation builds on established principles, this article describes, for the first time, the conditions required to obtain accurate and reproducible measurements and provides an estimate of their precision. Preliminary field trials to measure oxygen depth profiles in the ocean have proved very encouraging [R. Prien, R. Pascal, M. Mowlem, G. Denuault, M. Sosna, Development and first results of a new fast response microelectrode DO-sensor, in Oceans 2005—Europe, Vols. 1 and 2, 2005, pp. 744–747].
Dissolved oxygen, Amperometric oxygen sensor, Calibration, Microelectrode, Microdisc, In situ measurements
344-351
Sosna, M.
36542c5a-56cc-413c-b99b-efc8493b19af
Denuault, G.
5c76e69f-e04e-4be5-83c5-e729887ffd4e
Pascal, R.W.
3b2e2a38-334f-430f-b110-253a0a835a07
Prien, R.D.
bf4b9da5-8598-4ff1-9405-7def621d3045
Mowlem, M.
6f633ca2-298f-48ee-a025-ce52dd62124f
10 April 2007
Sosna, M.
36542c5a-56cc-413c-b99b-efc8493b19af
Denuault, G.
5c76e69f-e04e-4be5-83c5-e729887ffd4e
Pascal, R.W.
3b2e2a38-334f-430f-b110-253a0a835a07
Prien, R.D.
bf4b9da5-8598-4ff1-9405-7def621d3045
Mowlem, M.
6f633ca2-298f-48ee-a025-ce52dd62124f
Sosna, M., Denuault, G., Pascal, R.W., Prien, R.D. and Mowlem, M.
(2007)
Development of a reliable microelectrode dissolved oxygen sensor.
Sensors and Actuators B: Chemical, 123 (1), .
(doi:10.1016/j.snb.2006.08.033).
Abstract
This article reports the results of a careful experimental and analytical investigation which led to the development of an accurate and reproducible microelectrode dissolved oxygen sensor. Primarily designed for oceanographic applications but also applicable to environmental and water process monitoring, the sensor measures the diffusion controlled current to a bare Pt microdisc electrode for the reduction of oxygen. A successful reconditioning potential waveform is reported which yields a very stable amperometric response over continuous operation, with a maximum deviation of the limiting current under 1.5% over 24 h. An automated calibration method developed to accurately characterise the electrodes is described. Excellent linearity is obtained for all electrodes tested and in each case, the number of apparent electrons for the reduction of oxygen is reported. As an alternative to calibration, an analytical treatment which accounts for temperature and salinity effects is given to calculate the dissolved oxygen concentration directly from the limiting current. While the analytical approach yields a concentration relative error circa 11% for a 50 ?m diameter Pt disc, the calibration, has lower errors and yields a detection limit down to 0.9 ?M with the same disc. Although this investigation builds on established principles, this article describes, for the first time, the conditions required to obtain accurate and reproducible measurements and provides an estimate of their precision. Preliminary field trials to measure oxygen depth profiles in the ocean have proved very encouraging [R. Prien, R. Pascal, M. Mowlem, G. Denuault, M. Sosna, Development and first results of a new fast response microelectrode DO-sensor, in Oceans 2005—Europe, Vols. 1 and 2, 2005, pp. 744–747].
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Published date: 10 April 2007
Keywords:
Dissolved oxygen, Amperometric oxygen sensor, Calibration, Microelectrode, Microdisc, In situ measurements
Identifiers
Local EPrints ID: 42884
URI: http://eprints.soton.ac.uk/id/eprint/42884
ISSN: 0925-4005
PURE UUID: 8c50c4bc-60d1-4b0a-80bd-b6c7c43cb06f
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Date deposited: 13 Dec 2006
Last modified: 16 Mar 2024 03:08
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Contributors
Author:
M. Sosna
Author:
R.W. Pascal
Author:
R.D. Prien
Author:
M. Mowlem
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