Multiwavelength photometry of thermochromic indicator solutions for temperature determination in multicuvettes

Multiwavelength photometry of thermochromic indicator solutions for temperature determination in multicuvettes

If buffer/indicator systems are used as optical thermometers in multicuvettes, the temperature resolution is limited by errors of optical measurements produced mainly by variations of pathlength and blank transmittance of the wells. Theoretical and practical approaches show that, in multicuvettes, a...

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Bibliographic Details
Published in:Clinical chemistry (Baltimore, Md.) Vol. 39; no. 2; p. 251
Main Authors: Schilling, K, Cumme, G A, Hoffmann-Blume, E, Hoppe, H, Horn, A
Format: Journal Article
Language:English
Published: England 01-02-1993
Subjects:
Indicators and Reagents
Kinetics
Phenolsulfonphthalein - analogs & derivatives
Photometry - instrumentation
Photometry - methods
Solutions
Spectrophotometry
Temperature
Tromethamine
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Summary:If buffer/indicator systems are used as optical thermometers in multicuvettes, the temperature resolution is limited by errors of optical measurements produced mainly by variations of pathlength and blank transmittance of the wells. Theoretical and practical approaches show that, in multicuvettes, a between-well temperature resolution of < 0.05 degrees C can be achieved by multiwavelength photometry with use of the Tris/cresol red indicator system. Using up to three absorbances (A0, A1, A2) measured in the same well at different wavelengths for calculation of differences, quotients, and quotients of differences, we found the optimum temperature signal to be In(A1/A2), with equal-ranking absorbances changing with temperature in opposite directions. We have used the method successfully to measure the temperature profiles and temporal dynamics of temperatures at all positions in two types of multicuvettes under controlled conditions, or not controlled thermostatically.
ISSN:0009-9147
DOI:10.1093/clinchem/39.2.251