Please use this identifier to cite or link to this item: https://scholarbank.nus.edu.sg/handle/10635/113736
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dc.titleOptomization of On-Chip Micro-Electromagnets for Biomolecular Separation
dc.contributor.authorRamadan, Q.
dc.contributor.authorSamper, V.
dc.contributor.authorNeuzil, P.
dc.contributor.authorMarie, L.
dc.contributor.authorMeng, L.T.
dc.contributor.authorKiat, H.C.
dc.contributor.authorQin, Y.S.
dc.contributor.authorPuiu, P.D.
dc.date.accessioned2014-12-01T06:57:50Z
dc.date.available2014-12-01T06:57:50Z
dc.date.issued2002
dc.identifier.citationRamadan, Q.,Samper, V.,Neuzil, P.,Marie, L.,Meng, L.T.,Kiat, H.C.,Qin, Y.S.,Puiu, P.D. (2002). Optomization of On-Chip Micro-Electromagnets for Biomolecular Separation. Proceedings of IEEE Sensors 1 (1) : 249-254. ScholarBank@NUS Repository.
dc.identifier.urihttp://scholarbank.nus.edu.sg/handle/10635/113736
dc.description.abstractThis work deals with the design of on-chip planar electromagnets that will be introduced into a microfluidic device as part of a DNA extraction system. Different geometries of planar electromagnets have been designed, fabricated and tested using SQUID, and a comparison between their magnetic fields is made. The magnetic fields generated by different electromagnets were also studied using both theoretical considerations and FEA (Finite Element Analysis) simulations. The analysis and results of SQUID measurements and magnetic field simulation related to the magnetic bead-cell composite separation ability will also be presented.
dc.sourceScopus
dc.subjectCell Separation
dc.subjectGeometry
dc.subjectMagnetic Bead
dc.subjectMicro-electromagnet
dc.subjectSQUID
dc.typeConference Paper
dc.contributor.departmentBIOLOGICAL SCIENCES
dc.contributor.departmentPAEDIATRICS
dc.description.sourcetitleProceedings of IEEE Sensors
dc.description.volume1
dc.description.issue1
dc.description.page249-254
dc.identifier.isiutNOT_IN_WOS
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