EXPERIMENTAL INVESTIGATIONS ON THE SURFACE-DRIVEN CAPILLARY FLOW OF AQUEOUS MICROPARTICLE SUSPENSIONS IN THE MICROFLUIDIC LABORATORY-ON-A-CHIP SYSTEMS.

Autor: MUKHOPADHYAY, SUBHADEEP
Předmět:
Zdroj: Surface Review & Letters; Dec2017, Vol. 24 Issue 8, p-1, 28p, 11 Color Photographs, 3 Black and White Photographs, 6 Diagrams, 11 Graphs
Abstrakt: In this work, total 1592 individual leakage-free polymethylmethacrylate (PMMA) microfluidic devices as laboratory-on-a-chip systems are fabricated by maskless lithography, hot embossing lithography, and direct bonding technique. Total 1094 individual Audio Video Interleave Files as experimental outputs related to the surface-driven capillary flow have been recorded and analyzed. The influence of effective viscosity, effect of surface wettability, effect of channel aspect ratio, and effect of centrifugal force on the surface-driven microfluidic flow of aqueous microparticle suspensions have been successfully and individually investigated in these laboratory-on-a-chip systems. Also, 5 micron polystyrene particles have been separated from the aqueous microparticle suspensions in the microfluidic lab-on-a-chip systems of modified design with 98% separation efficiency, and 10 micron polystyrene particles have been separated with 100% separation efficiency. About the novelty of this work, the experimental investigations have been performed on the surface-driven microfluidic flow of aqueous microparticle suspensions with the investigations on the separation time in particle-size based separation mechanism to control these suspensions in the microfluidic lab-on-a-chip systems. This research work contains a total of 10,112 individual experimental outputs obtained using total 30 individual instruments by author's own hands-on completely during more than three years continuously. Author has performed the experimental investigations on both the fluid statics and fluid dynamics to develop an automated fluid machine. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index