Traveling wave magnetophoresis for high resolution chip based separations.
about
Magnetophoretic Conductors and Diodes in a 3D Magnetic Field.Dynamic trajectory analysis of superparamagnetic beads driven by on-chip micromagnets.Perspectives on utilizing unique features of microfluidics technology for particle and cell sorting.Multitarget magnetic activated cell sorter.Label-acquired magnetorotation for biosensing: An asynchronous rotation assayOn-chip magnetic separation and encapsulation of cells in droplets.Quantitative Magnetic Separation of Particles and Cells Using Gradient Magnetic Ratcheting.Monitoring the growth and drug susceptibility of individual bacteria using asynchronous magnetic bead rotation sensorsRare cell separation and analysis by magnetic sortingGeometrical optimization of microstripe arrays for microbead magnetophoresisLabel-Free and Continuous-Flow Ferrohydrodynamic Separation of HeLa Cells and Blood Cells in Biocompatible Ferrofluids.Microfluidic transport in magnetic MEMS and bioMEMS.Handling and analysis of cells and bioparticles on centrifugal microfluidic platforms.Circulating tumor cells: a review of present methods and the need to identify heterogeneous phenotypes.Manipulation of Superparamagnetic Beads on Patterned Exchange-Bias Layer Systems for Biosensing Applications.Micromagnet arrays for on-chip focusing, switching, and separation of superparamagnetic beads and single cells.Micromagnet arrays enable precise manipulation of individual biological analyte-superparamagnetic bead complexes for separation and sensing.Rapid multitarget immunomagnetic separation through programmable DNA linker displacement.Flow enhanced non-linear magnetophoretic separation of beads based on magnetic susceptibility.Sequential CD34 cell fractionation by magnetophoresis in a magnetic dipole flow sorterMagnetophoretic circuits for digital control of single particles and cells.Architecture for Directed Transport of Superparamagnetic Microbeads in a Magnetic Domain Wall Routing NetworkResistive pulse sensing of magnetic beads and supraparticle structures using tunable pores.Microstripes for transport and separation of magnetic particlesSynthesis of brightly PEGylated luminescent magnetic upconversion nanophosphors for deep tissue and dual MRI imaging.Collective transport for active matter run-and-tumble disk systems on a traveling-wave substrate.Composites reinforced in three dimensions by using low magnetic fields.An on-chip micromagnet frictionometer based on magnetically driven colloids for nano-bio interfaces.Multiplexing superparamagnetic beads driven by multi-frequency ratchets.The application of an optically switched dielectrophoretic (ODEP) force for the manipulation and assembly of cell-encapsulating alginate microbeads in a microfluidic perfusion cell culture system for bottom-up tissue engineering.Magnetic domain wall conduits for single cell applications.A magnetic microchip for controlled transport of attomole levels of proteins.Magnetically controlled rotation and torque of uniaxial microactuators for lab-on-a-chip applications.Tunable interactions between paramagnetic colloidal particles driven in a modulated ratchet potential.Asymmetric magnetization reversal of stripe-patterned exchange bias layer systems for controlled magnetic particle transport.Origin of multiplexing capabilities of multifrequency magnetic ratchets
P2860
Q30354225-7C81C382-4B89-42B5-9CB7-C5EF5D200529Q30369105-61AA0B59-0415-4094-8711-D842B92A2AEBQ30478456-33DBE99C-A884-4163-9DEC-B10FE51718F3Q30484761-21851BBB-1DA4-4F92-9663-39161FC75076Q30526450-C8919E2E-5F8A-4328-A432-E4F55983B10CQ30588231-9DF8156E-E61B-4DAB-95CF-357554A0C97CQ30788606-516440A1-82FE-4169-90DA-2CB8B893F699Q34690109-0796E124-FAC3-414F-9AF1-3AD2A4AD772BQ35489162-92EDA04C-9A12-4A7D-9AAB-07F7A3820B1FQ36198812-2302EF74-7877-4CB4-929B-EA4E6AB050BCQ37130902-BDC886C6-611C-41EF-9BD7-1D42B1ABFA13Q37766563-134F2D35-4860-46A8-8CF1-03E809B60DD7Q38012176-640B182E-734F-4514-BEFF-22C8ECF87649Q38123962-C8DC8AFE-4457-47FD-92C1-6D44D9AE76A4Q38637322-D4FCBFD2-4EE9-45A0-9274-795C17231D5FQ38854681-3ACDA578-9964-4CCB-A34A-CC0676E10545Q38932060-A914279B-78F9-4EDD-9BB9-828F77EA1E39Q38949470-5E1AEA9F-6304-459C-8E47-8072595A5D45Q39092655-1BFA400E-E17E-4E4E-86BA-89C3A6109FDDQ39760997-F61481B2-9D04-4991-A41A-0755396604E1Q40191186-6BE7F4ED-E24B-4122-81B3-9C2F61B85144Q40501221-B0FCA805-CB60-47F9-A649-096E604E327CQ41967349-99FB96B5-8E16-4E32-838D-6C834DC2BFCFQ41973211-6D46F005-B492-426C-B690-6F3EDD0DC60DQ42763346-B0F1BB8B-4162-4157-8C32-2F9861120900Q46416816-ACDF6F3B-D519-4FED-9E65-EF9ED728F9AFQ50972996-C976B1E8-A7F7-4353-A5A8-ACF8BA2705F7Q51457710-B48C4B7B-6D5B-4996-8033-F83E52AF738CQ51508242-5A34BB02-B3B1-42B8-9273-84DE02401A39Q51542160-98669294-E2E6-4DA1-B72A-A209419A8CAEQ51547115-AFBC706F-82D8-4ACB-806C-F4B9401B1C70Q51560129-B42886F3-ADA2-44DA-B696-CAEB2F892C42Q51560992-8D8EB95D-6B24-44F0-8A26-185B968D5E84Q52878093-1265FAB5-C0CF-4A15-89FA-65D5E97E45FFQ53090843-AB2E4AA3-BA9F-4345-8237-0982EB1A9EE6Q57431943-4C6DFD08-157D-4BBB-AF93-F07B93158817
P2860
Traveling wave magnetophoresis for high resolution chip based separations.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Traveling wave magnetophoresis for high resolution chip based separations.
@en
Traveling wave magnetophoresis for high resolution chip based separations.
@nl
type
label
Traveling wave magnetophoresis for high resolution chip based separations.
@en
Traveling wave magnetophoresis for high resolution chip based separations.
@nl
prefLabel
Traveling wave magnetophoresis for high resolution chip based separations.
@en
Traveling wave magnetophoresis for high resolution chip based separations.
@nl
P2093
P356
P1433
P1476
Traveling wave magnetophoresis for high resolution chip based separations.
@en
P2093
Benjamin B Yellen
Randall M Erb
Rodward Hewlin
P304
P356
10.1039/B713547E
P50
P577
2007-10-17T00:00:00Z