Particle ordering in inertially focused microfluidic flows

Katherine Humphry; Pandurang Kulkarni; Dino Di Carlo; Jon Edd; Mehmet Toner; Jeffrey Morris; David Weitz; Howard A. Stone

Particle ordering in inertially focused microfluidic flows

ORAL

Abstract

We study inertially driven focusing of particles [1], which has recently been exploited in a controlled fashion in microfluidic devices [2]. In particular, we characterize the focusing as a function of particle and channel Reynolds number by reporting particle position in directions perpendicular to the flow, and a large distance from the fluid inlet. Focusing of dilute suspensions leads to a linear arrangement of particles whose spacing is primarily a function of concentration and channel aspect ratio. All results are compared with simulations, which provide mechanistic insights into particle behavior.\\ \\ $[1]$ G. Segr\'{e} and A. Silberberg, Nature \textbf{189}, 209 (1961). \\ $[2]$ D. Di Carlo, D. Irimia, R. G. Tompkins, and M. Toner, Proc. Nat. Acad. Sci. U.S.A. \textbf{104}, 18892 (2007).

Nov. 23, 2008, 7:00 AM – Nov. 23, 2008, 7:13 AM

Authors

Katherine Humphry
- Department of Physics, Harvard University
Pandurang Kulkarni
- Levich Institute and Department of Chemical Engineering, City College of the City University of New York
Dino Di Carlo
- BioMEMS Resource Center, Massachusetts General Hospital
Jon Edd
- BioMEMS Resource Center, Massachusetts General Hospital
Mehmet Toner
- BioMEMS Resource Center, Massachusetts General Hospital
Jeffrey Morris
- Levich Institute and Department of Chemical Engineering, City College of the City University of New York
David Weitz
- Dept of Physics and SEAS, Harvard University
- Department of Physics \& School of Engineering and Applied Sciences, Harvard University
Howard A. Stone
- Harvard University - School of Engineering and Applied Sciences
- SEAS - Harvard University
- Harvard Univ.
- Harvard University
- SEAS, Harvard University
- School of Engineering and Applied Sciences, Harvard University