1. Quantitative Kinetic Analysis in a Microfluidic Device Using Frequency-Domain Fluorescence Lifetime Imaging.
- Author
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Matthews, Sinéad M., Elder, Alan D., Yunus, Kamran, Kaminski, Clemens F., Brennan, Cohn M., and Fisher, Adrian C.
- Subjects
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NUMERICAL analysis , *QUANTITATIVE chemical analysis , *QUANTITATIVE research , *FLUORESCENCE , *MICROREACTORS , *FLUID dynamics , *CHLORIDES , *CHEMICAL research - Abstract
A novel microfluidic approach for the quantification of reaction kinetics is presented. A three-dimensional finite difference numerical simulation was developed in order to extract quantitative kinetic information from fluorescence lifetime imaging experimental data. This approach was first utilized for the study of a fluorescence quenching reaction within a microchannel; the lifetime of a fluorophore was used to map the diffusion of a quencher across the microchannel. The approach was then applied to a more complex chemical reaction between a fluorescent amine and an acid chloride, via numerical simulation the bimolecular rate constant for this reaction was obtained. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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