Minimizing the number of voltage sources for pinched injection on a microfluidic device

This work presents a novel injection design for microfluidic systems which is able to perform pinched injections using a single power supply. This geometry also minimizes the injection time compared to standard pinched injections. This new design was developed and investigated by computer simulation...

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Published in:Lab on a chip 2010-01, Vol.1 (1), p.1319-1323
Main Authors: Blas, Maximilien, Asselin, Erika L, Liu, Tao, Rodriguez, Cristina, Panepucci, Roberto R, McCord, Bruce R
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Language:English
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creator Blas, Maximilien
Asselin, Erika L
Liu, Tao
Rodriguez, Cristina
Panepucci, Roberto R
McCord, Bruce R
description This work presents a novel injection design for microfluidic systems which is able to perform pinched injections using a single power supply. This geometry also minimizes the injection time compared to standard pinched injections. This new design was developed and investigated by computer simulation and these results were confirmed by experimental studies using the injection of fluorescent dye. A novel chip design has been developed for performing pinched injections using a single power supply. This geometry minimizes injection time, and produces a focused sample plug in the central channel.
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title Minimizing the number of voltage sources for pinched injection on a microfluidic device
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