Beyond Karl Fischer titration: a monolithic quantum cascade sensor for monitoring residual water concentration in solvents
Quality control of liquids is an important part of analytical chemistry. The gold standard for measuring residual water in organic solvents and pharmaceutical applications is Karl Fischer titration. It has a high sensitivity, selectivity and accuracy. The downsides are a time-consuming offline analy...
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Veröffentlicht in: | Lab on a chip 2023-03, Vol.23 (7), p.1816-1824 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Quality control of liquids is an important part of analytical chemistry. The gold standard for measuring residual water in organic solvents and pharmaceutical applications is Karl Fischer titration. It has a high sensitivity, selectivity and accuracy. The downsides are a time-consuming offline analysis, together with the need for toxic reagents producing waste, and it suffers from poor inter-laboratory reproducibility. In this work, we present a high-performance lab-on-a-chip sensor exploiting mid-IR spectroscopy for liquid sensing. It is operating at 6.1 μm wavelength and is suitable for robust and flexible real-time
in situ
analysis of the residual water concentration in isopropyl alcohol. This is demonstrated in two experiments. A custom-made 60 μL flow cell is employed to measure only minute amounts of analyte in an inline configuration. In a second approach, the whole sensor is immersed into the analyte to demonstrate sensitive and rapid
in situ
operation on the millisecond time scale. This is confirmed by the ability for time resolved single water-droplet monitoring, while they are mixed into the liquid sample. We obtain a limit of detection between 120 ppm and 150 ppm with a concentration coverage spanning three orders of magnitude from 1.2 × 10
−2
%
vol
to 25%
vol
for the flow cell and 1.5 × 10
−2
%
vol
to 19%
vol
in the
in situ
configuration, respectively.
A sensitive and selective monolithic mid-IR lab-on-a-chip for real-time analysis of water-residuals in solvents with comparable LOD to Karl-Fischer titration. |
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ISSN: | 1473-0197 1473-0189 |
DOI: | 10.1039/d2lc00724j |