Download Separation of Carbon Nanotube by Dielectrophoresis

A Micro-flow Cytometer Based on
Dielectrophoretic Particle Focusing
Choongho Yu, Li Shi
University of Texas at Austin
Jody Vykouka, Peter Gascoyne
UT MD Anderson Cancer Center
Support:
UT BME Program /Whitake Foundation
Conventional Flow Cytometry
Hydrodynamic
Focusing
Injector
Tip
Sheath
fluid
Fluorescence
signals
Picture Courtesy:
Purdue University
Focused laser
beam
Cytometry Laboratories
1. Focus cells in suspension by sheath fluid
2. Illuminate cells in the focused suspension stream
3. Analyze cells by detecting scattered and fluorescence signals
Motivation for a Micro-cytometer
Conventional
User
Complex
Interface
Operated by skilled
personnel
Size etc. Large, heavy
Price
Micro (Goals)
Easier to operate
Small, portable
 A reservoir is required for
the sheath flow medium,
and need to be kept free of
dust and bacteria
 Large components
unnecessary
 Eliminate the use
of gallons of sheath
liquid
Expensive
Inexpensive
•Collaboration: P. Gascoyne, UT MD Anderson Cancer Center
Dielectrophoretic (DEP) Particle Focusing
E
FDEP

m1
flow

Fringing fields at
electrode edges
provide DEP
levitation forces in
direction normal to
the electrode plane
A Micro-Flow Cytometer based on DEP Focusing
Circular electrode
Top glass wafer
Circular channel
Bottom Si wafer
• Electrodes focus cells to the
center of the channel by
negative DEP force
• Optical sensors can be
fabricated on the bottom Si
wafer for cell diagnostics
PhD Student: Choongho Yu
Electrode
Circular
channel
Proof of Principle