Continuous-flow microfluidic method for octanol-water partition coefficient measurement

Continuous-flow microfluidic method for octanol-water partition coefficient measurement

To determine the octanol–water partition coefficient (logKow or logD), a microfluidic method is developed to reduce time and coast of analyze. A double Y serpentine microfluidic chip is fabricated used soft lithography facilities. To generate a biphasic parallel flow, hydrophilic microchannels walls...

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Bibliographic Details
Published in:Fluid phase equilibria Vol. 380; pp. 116 - 120
Main Authors: Stephan, Khaled, Saab, Joseph, Mokbel, Ilham, Goutaudier, Christelle, Ferrigno, Rosaria
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2014
Elsevier
Subjects:
Chemical Sciences
Coefficients
Continuous-flow
Correlation
Fluorescein natrium
Fluorescence
Inorganic chemistry
Lithography
Microchannels
Microfluidic method
Microfluidics
Octanol–water partition
Partitions
Walls
Octanol–water partition
Continuous-flow
Fluorescein natrium
Microfluidic method
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Summary:To determine the octanol–water partition coefficient (logKow or logD), a microfluidic method is developed to reduce time and coast of analyze. A double Y serpentine microfluidic chip is fabricated used soft lithography facilities. To generate a biphasic parallel flow, hydrophilic microchannels walls are generated by oxygen plasma treatment. Epifluorescence microscopy is used to measure the intensity of fluorescence molecules in microchannel. Using microfluidic parallel diluter this intensity show a strong linear correlation with molecule concentration in solution. The equilibrium between phases is reached in less than 5s. To validate this microsystem, we have determined the logD of fluorescein natrium molecule. The obtained results compare well with previous measurements using traditional shake-flask or microfluidic drops flow methods, with a relative difference to the literature less than 3%. Rapid microfluidic partition coefficient determination is useful for studying liquid–liquid partition of organic pollutant.
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ISSN:0378-3812
1879-0224
DOI:10.1016/j.fluid.2014.07.033