Info.
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Vol.2 - No.3 (2008.09.20) |
Title
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Continuous Micro-Magnetophoretic Separation using a Dipole Magnetic Field |
Authors
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Oh-Taek Son1, Jong Wook Roh2,
Suk-Heung Song1, Jae-Sung Park1,
Wooyoung Lee2 & Hyo-Il Jung1 |
Institutions
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1School of Mechanical Engineering, Yonsei University,
134 Sinchon, Seoul 120-749, Korea 2Department of Materials Science and Engineering, Yonsei University, 134 Sinchon, Seoul 120-749, Korea Correspondence and requests for materials should be addressed to H.-I. Jung (uridle7@yonsei.ac.kr), W. Lee (wooyoung@yonsei.ac.kr) |
Abstract
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The use of a dipole magnetic field on particle separation in a microfluidic channel is introduced. We compare a monopole magnetic field with a dipole magnetic field by computer simulation, and the separation of magnetic beads utilizing the dipole magnetic field is demonstrated. The dipole field generates a higher magnetic flux density at the separation zone than the monopole field. In the demonstration, the dipole field successfully derives the deflection of magnetic beads flowing through a microfluidic channel.
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Keyword
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Magnetophoretic separation, Microfluidic channel, Dipole magnetic field, Flow cytometry, Biochip technology |
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