Optimization of spin-valve parameters for magnetic bead trapping and manipulation |
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Authors: | Wendy R. Altman John Moreland Victor M. Bright |
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Affiliation: | a Mechanical Engineering, University of Colorado, Boulder, CO 80309, USA b National Institute of Standards and Technology, Boulder, CO 80305, USA |
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Abstract: | Magneto-optic Kerr effect (MOKE) and magnetoresistance (MR) measurements were used to measure the switching characteristics of spin-valve (SV) arrays currently being developed to trap and release superparamagnetic beads within a fluid medium. The effect of SV size on switching observed by MOKE showed that a 1 μm×8 μm SV element was found to have optimal switching characteristics. MR measurements on a single 1 μm×8 μm SV switched with either an external applied magnetic field or a local magnetic field generated by an integrated write wire (current density ranging from 106 to 107 A/cm2) confirmed the MOKE findings. The 1 μm×8 μm SV low field switching was observed to be +8 and −2 mT with two stable states at zero field; the high field switching was observed to be −18 mT. The low switching fields and the large magnetic moment of the SV trap along with our observation of minimal magnetostatic effects for dense arrays are necessary design characteristics for high-force, “switchable-magnet,” microfluidic bead trap applications. |
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Keywords: | Spin-valve Magnetic bead Microfluidic Magnetic manipulation Switchable magnetic trap |
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