Micro fluidic platform for manipulation of micro- and nanoscale particles
Document Type
Conference Proceeding
Publication Date
1-1-2003
Abstract
In this paper, we study the manipulation and immobilization of micro- and nano-sized particles, such as living cells, suspended in a liquid. Our technique focuses on dielectrophoresis, that is, the use of a spatially nonuniform electric field, while not damaging the manipulated particles or cells. The small size of the particles considered here requires the use of a micro-electro-mechanical device (MEMS). We first simulate the suspended system by means of our new computational fluid dynamics (CFD) tool based on the distributed Lagrange Multiplier method (DLM), which takes into account not only fluid-particle but also particle-particle interactions. Results for both positive and negative dielectrophoresis are presented. We also show the existence of various regimes for the particle structures depending on the relative magnitude of the dielectrophoretic force and the electrostatic particle-particle interactions. We then design, fabricate and test a MEMS platform containing several micro-devices.
Identifier
1942504324 (Scopus)
Publication Title
American Society of Mechanical Engineers Electronic and Photonic Packaging Epp
External Full Text Location
https://doi.org/10.1115/IMECE2003-41582
First Page
835
Last Page
840
Volume
3
Recommended Citation
Kadaksham, J.; Batton, J.; Singh, P.; and Aubry, N., "Micro fluidic platform for manipulation of micro- and nanoscale particles" (2003). Faculty Publications. 14335.
https://digitalcommons.njit.edu/fac_pubs/14335
