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Design of high-throughput microfluidic device for individual entrapment of micro-particles
González-Jiménez, Stephanie E.
González-Jiménez, Stephanie E.
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Abstract
Today, microfluidic devices have gained popularity in the areas of biology, chemistry,
biomedical, bio-engineering, etc., as these can perform the functions of a complete laboratory
in a very small space. This project aims to design, create and test a microfluidic device
capable of effectively entrapping many particles (15µm dia.) individually; in order to later
use this device to isolate and study cells. First, to achieve this goal, the controversial slipcondition
at the micro-scale was studied and its effects in the design of polydimethylsiloxane
(PDMS) micro-devices were determined. Next, using the Hardy-Cross Method (HCM) for
a network of channels, the maximum possible number of traps in series that guaranteed an
effective trapping of particles was investigated. Finally, the determined series arrangement
was expanded to a parallel arrangement. After these considerations, the main objective was
achieved and a new device was designed with a total of 800 trap-sites.
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Date
2015
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Keywords
Microfluidic devices