Hale 1983 POS Stability: Difference between revisions
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{{Publication | {{Publication | ||
|title= | |title=Hale JM (1983) Factors influencing the stability of polarographic oxygen sensors. In: Polarographic Oxygen Sensors. Aquatic and Physiological Applications. Gnaiger E, Forstner H (eds), Springer, Berlin, Heidelberg, New York: 3-17. | ||
|info=[[File:PDF.jpg|100px|link=http://wiki.oroboros.at/images/f/f4/Hale_1983_POS_Stability.pdf |Bioblast pdf]] [https://link.springer.com/chapter/10.1007/978-3-642-81863-9_1 Springer link] | |info=[[File:Gnaiger-Forstner 1983 POS.jpg|left|55px|link=https://www.bioblast.at/index.php/Gnaiger_1983_Springer_POS|POS1983]] [[File:PDF.jpg|100px|link=http://wiki.oroboros.at/images/f/f4/Hale_1983_POS_Stability.pdf |Bioblast pdf]] [https://link.springer.com/chapter/10.1007/978-3-642-81863-9_1 Springer link] | ||
|authors=Hale JM | |authors=Hale JM | ||
|year=1983 | |year=1983 |
Latest revision as of 14:21, 2 January 2021
Hale JM (1983) Factors influencing the stability of polarographic oxygen sensors. In: Polarographic Oxygen Sensors. Aquatic and Physiological Applications. Gnaiger E, Forstner H (eds), Springer, Berlin, Heidelberg, New York: 3-17. |
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Abstract:
An ideal polarographic oxygen sensor (POS) exhibits a time-independent relationship between the current it delivers, throughout its specified operating temperature range, and the activity of oxygen contacting its membrane. All applications of POS require stability in some measure, and long-term monitoring applications demand stability over periods up to 1 year.
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HRR: Theory
POS 1983