about
A Quantitative Perspective on Surface Marker Selection for the Isolation of Functional Tumor CellsContinuous particle separation using pressure-driven flow-induced miniaturizing free-flow electrophoresis (PDF-induced μ-FFE).High throughput protein nanocrystal fractionation in a microfluidic sorterDeformability Assessment of Waterborne Protozoa Using a Microfluidic-Enabled Force Microscopy ProbeSingle Cell Isolation and AnalysisTunable Microfluidic Devices for Hydrodynamic Fractionation of Cells and Beads: A ReviewRise of the micromachines: microfluidics and the future of cytometryEnrichment of diluted cell populations from large sample volumes using 3D carbon-electrode dielectrophoresis.Capillary flow-driven microfluidic device with wettability gradient and sedimentation effects for blood plasma separation.High-throughput sheathless and three-dimensional microparticle focusing using a microchannel with arc-shaped groove arraysInertial Focusing of Microparticles in Curvilinear Microchannels.A Microfluidic Platform for Precision Small-volume Sample Processing and Its Use to Size Separate Biological Particles with an Acoustic MicrodeviceFundamentals and application of magnetic particles in cell isolation and enrichment: a reviewMembrane-less microfiltration using inertial microfluidics.Pulsed laser activated cell sorting with three dimensional sheathless inertial focusingMicrofluidic blood cell sorting: now and beyond.Microfluidic electrical sorting of particles based on shape in a spiral microchannelEnhanced size-dependent trapping of particles using microvortices.Enabling systems biology approaches through microfabricated systems.Specific capture and temperature-mediated release of cells in an aptamer-based microfluidic device.Hydrodynamic mechanisms of cell and particle trapping in microfluidics.A pillar-based microfilter for isolation of white blood cells on elastomeric substrate.Continuous sheath-free magnetic separation of particles in a U-shaped microchannel.Microfluidic separation of live and dead yeast cells using reservoir-based dielectrophoresis.Cell separation and transportation between two miscible fluid streams using ultrasound.Purification of cell subpopulations via immiscible filtration assisted by surface tension (IFAST)Spiral microchannel with rectangular and trapezoidal cross-sections for size based particle separationOn-chip magnetic separation and encapsulation of cells in droplets.Two-dimensional strain-hardening membrane model for large deformation behavior of multiple red blood cells in high shear conditions.Microfluidic dielectrophoretic sorter using gel vertical electrodes.High-efficiency rare cell identification on a high-density self-assembled cell arrangement chip.Selenocystine against methyl mercury cytotoxicity in HepG2 cells.Magnetic sensing technology for molecular analysesReal-time digitization of metabolomics patterns from a living system using mass spectrometry.3D pulsed laser-triggered high-speed microfluidic fluorescence-activated cell sorter.Label-free density difference amplification-based cell sorting.Perspective on microfluidic cell separation: a solved problem?Computational design optimization for microfluidic magnetophoresisA microfluidics approach towards high-throughput pathogen removal from blood using marginationMicrofluidic size separation of cells and particles using a swinging bucket centrifuge.
P2860
Q26797232-6B6B11A3-D046-4BAF-B16F-5572DCB6E0ADQ27300773-7277E366-1393-4DBE-95A6-815FFFC80C38Q27301897-477C648A-3132-4C3E-B5B6-A4DFC4B8DE99Q27319500-0545F008-9E00-4381-A889-63C582784B77Q28078083-99D83319-9D30-4037-95DA-8BFC2F487653Q28081395-7CB4522B-5802-4135-9316-814FE5A49495Q28741316-76FEF69B-6D57-42F8-AD37-FFFB11F8D823Q30353990-C818181A-2C4F-49EC-B617-A5F299FD5CFDQ30361687-2A8E886B-3590-4D2E-B571-927E8969FED3Q30365187-DAF52F84-EBF3-4E11-ACF2-D369A90E15A3Q30367314-E744A826-9D0A-4E4F-9A54-5178650A07ADQ30394290-5A312E61-57AF-4BE1-87B7-7A0E3DB22E6EQ30395055-142A45F0-8B9A-4E8C-98DE-AA899B43AA98Q30407006-33E11396-95DA-4C90-B52E-2C2C1AFD63BDQ30412045-DAD4690B-379E-4CAD-B6CE-8DB45D402035Q30412049-8E929989-962E-405D-831A-FB64E9E04D55Q30420903-DF3C436C-04FC-4366-8EC3-C66AD834F1A4Q30427238-7D3CDC87-5799-4491-8921-828D61E129C1Q30429497-6449992F-E7F2-489D-AEEB-6C0EEB1F5C12Q30440489-47019631-797F-4A35-8E73-332B854B583EQ30440491-8940B75A-33FE-472D-942E-350877EAE1E8Q30444589-AFF7FB48-A626-4E19-A68E-29296D6084FEQ30447876-CCC2C672-C9FB-437A-A4B5-EB84651AF11CQ30452287-A182B9D8-B229-40B4-9623-1CD61CE7AA4FQ30466949-D04D6770-1A01-4006-AF87-0773C00440A3Q30469223-7AA05CB9-5D2E-4E38-9FDC-06CC3D1703B7Q30537762-F90A1B39-4626-463E-BBFB-C32F3392CAEBQ30588231-5BCA083F-9411-460D-947A-201F72CACED9Q33634329-9610F7D7-C307-4678-95B0-6CFF04CDE26BQ33655556-59BE37E3-FC7B-4626-B309-9D540897E668Q33655571-A2555873-AF07-49C1-ABB2-4102F0CA728CQ33670209-67FA53C1-7948-4A90-BDD6-F64CCBAC419FQ33901900-62D9692D-0352-496C-BB97-4AD07DA27C90Q34175477-F90FE5EE-DB46-4F31-B5BF-866C302710E4Q34409639-647C7455-BF3C-451B-AAA7-252C5704574AQ34585634-44F65991-4D0F-4E6C-89DC-F69CD5872ECDQ34631301-756F6EAE-6A55-4E34-AB34-A2858262E515Q34869844-C68B2166-C092-40E4-9B37-B16580810070Q35989374-1B4702C7-A99F-4E66-8A2B-C3A167E42A79Q36117902-3A96B095-0090-4701-98E6-2C84E791C8D6
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 April 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Microfluidics for cell separation.
@en
Microfluidics for cell separation.
@nl
type
label
Microfluidics for cell separation.
@en
Microfluidics for cell separation.
@nl
prefLabel
Microfluidics for cell separation.
@en
Microfluidics for cell separation.
@nl
P2093
P50
P1476
Microfluidics for cell separation
@en
P2093
Hansen Bow
Jongyoon Han
Swee Jin Tan
P304
P356
10.1007/S11517-010-0611-4
P577
2010-04-23T00:00:00Z