Title :
Flow Guidance of Magnetic Particles by Dipolar Particle Interaction
Author :
Wittbracht, F. ; Weddemann, A. ; Auge, A. ; Hutten, A.
Author_Institution :
Dept. of Phys., Thin Films & Phys. of Nanostruct., Bielefeld Univ., Bielefeld, Germany
Abstract :
The authors present a method for flow guidance of magnetic particles in microfluidic devices. Using dipolar particle interactions, the flow of magnetic particles can be manipulated without changing the flow of the carrier liquid. The proposed system operates without any external magnetic gradient fields. Therefore, no electromagnetic components on the microscale are necessary. The method used for the manipulation is deduced from theoretical simulations and tested experimentally. Two different applications are introduced: a particle diverter designed for particle guidance along channel cross-sections and a device for generating a discretized particle flow.
Keywords :
channel flow; flow control; magnetic particles; microfluidics; carrier liquid; channel cross-sections; dipolar particle interaction; discretized particle flow; electromagnetic components; external magnetic gradient fields; flow guidance; magnetic particles; microfluidic devices; particle diverter; particle guidance; Electromagnetic forces; Hydrodynamics; Lab-on-a-chip; Magnetic fields; Magnetic liquids; Magnetic moments; Magnetic particles; Magnetic separation; Microfluidics; Physics; dipolar interactions; flow guidance; magnetic particles; microfluidics;
Conference_Titel :
Quantum, Nano and Micro Technologies, 2010. ICQNM '10. Fourth International Conference on
Conference_Location :
St. Maarten
Print_ISBN :
978-1-4244-5807-3
DOI :
10.1109/ICQNM.2010.26
