Please use this identifier to cite or link to this item: http://dspace.unimap.edu.my:80/xmlui/handle/123456789/32395
Title: The electroosmosis mechanism for fluid delivery in PDMS multi-layer microchannel
Authors: Tijjani Adam, Shuwa
Uda, Hashim, Prof. Dr.
Md. Eaqub, Ali, Dr.
Leow, Pei Ling
tijjaniadam@yahoo.com.my
uda@unimap.edu.my
eaqubali@um.edu.my
leowpl@fke.utm.my
Keywords: Diffusion
Electroosmosis
Microfluidic
Microlaboratories
Multi-layer microstructure
Issue Date: Jan-2013
Publisher: American Scientific Publishers All rights reserved.
Citation: Advanced Science Letters, vol. 19(1), 2013, pages 12-15
Abstract: Here we reported on fabrication of multi-layer microstructures that takes the advantage of electroosmosis to mix fluids. Microlaboratories for biochemical applications often require rapid mixing of different fluid streams. At the microscale, flow is usually highly ordered laminar flow and the lack of turbulence makes diffusion the primary mechanism for mixing. While diffusional mixing of small molecules can occur in a matter of seconds over distances of tens of micrometers, mixing of larger molecules such as peptides, proteins, and high molecular- weight nucleic acids can require equilibration times from minutes to hours over comparable distances. Such delays are impractically long for many chemical analyses. These problems have led to an intense search for more efficient mixers for microfluidic systems most microscale mixing devices are either passive mixers that use geometrical stirring ctive mixers that use moving parts or external forces, such as pressure or electric field. In a passive mixer, one way of increasing the mixing is by "shredding" two or several fluids into very thin alternating layers, which decreases the average diffusion length for the molecules between the different fluids. Another way of improving mixing efficiency is to use active mixers with moving parts that stir the fluids. At the microscale level moving parts in an active mixer are very fragile. One alternative solution which we explored is to use electroosmotic effects to achieve a mixing effect that is perpendicular to the main direction of the flow.
Description: Link to publisher's homepage at http://www.aspbs.com/
URI: http://www.ingentaconnect.com/content/asp/asl/2013/00000019/00000001/art00003?token=005c1b5d89d445429b45c5f3b3b474666483f25737b6e6e4642384f582a2f433e402c3568263c2b5ae61a433f0b3
http://dspace.unimap.edu.my:80/dspace/handle/123456789/32395
ISSN: 1936-6612
Appears in Collections:Institute of Nano Electronic Engineering (INEE) (Articles)
Uda Hashim, Prof. Ts. Dr.

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