Title :
Hydrodynamic passive separation under continuous flow in a microfluidic chip
Author :
Kanbar, J.N. ; Clague, D.S.
Author_Institution :
Dept. of Biomed. Eng., Cal Poly State Univ. San Luis Obispo, San Lurs Obispo, CA, USA
Abstract :
Continuous passive separation based on laminar flow and creative geometries has advantages over traditional separation methods such as dielectrophoresis, hydrodynamic chromatography, and acoustic separations to name a few. One advantage in particular is the lack of constant energy supply needed and another advantage is the ability to continuously operate the device for larger sample volumes without much interruption. Adding external forces to a device also can increase its complexity and may limit an ability to function on biological samples. In this paper we demonstrate a passive separation device.
Keywords :
bioMEMS; biological techniques; hydrodynamics; lab-on-a-chip; laminar flow; microfluidics; separation; acoustic separation; continuous passive separation; dielectrophoresis; external forces; hydrodynamic chromatography; hydrodynamic passive separation; laminar flow; microfluidic chip; Fabrication; Fluids; Hydrodynamics; Mathematical model; Microchannel; Microfluidics; Reservoirs;
Conference_Titel :
Bioengineering Conference (NEBEC), 2011 IEEE 37th Annual Northeast
Conference_Location :
Troy, NY
Print_ISBN :
978-1-61284-827-3
DOI :
10.1109/NEBC.2011.5778698
