Continuous particle separation through deterministic lateral displacement.
about
Artificial Brownian motors: Controlling transport on the nanoscaleIsolation of rare circulating tumour cells in cancer patients by microchip technologyBiosensors for the detection of circulating tumour cells.A mechanical biomarker of cell state in medicineRatchets in hydrodynamic flow: more than waterwheelsTumor-derived microvesicles: shedding light on novel microenvironment modulators and prospective cancer biomarkersProgress in circulating tumor cell capture and analysis: implications for cancer managementClogging-free microfluidics for continuous size-based separation of microparticles.Continuous microfluidic assortment of interactive ligands (CMAIL).Lab-on-a-chip workshop activities for secondary school students.Paramagnetic Structures within a Microfluidic Channel for Enhanced Immunomagnetic Isolation and Surface Patterning of Cells.Making a hydrophoretic focuser tunable using a diaphragm.Asymmetrical Deterministic Lateral Displacement Gaps for Dual Functions of Enhanced Separation and Throughput of Red Blood Cells.Controlled incremental filtration: a simplified approach to design and fabrication of high-throughput microfluidic devices for selective enrichment of particlesThe Evolution of Per-cell Organelle NumberTunable Microfluidic Devices for Hydrodynamic Fractionation of Cells and Beads: A ReviewMicrofluidic cell sorting: a review of the advances in the separation of cells from debulking to rare cell isolationEnrichment and single-cell analysis of circulating tumor cells.MicroBubble activated acoustic cell sortingParticle migration and sorting in microbubble streaming flowsThe incorporation of microfluidics into circulating tumor cell isolation for clinical applications.Continuous-flow Ferrohydrodynamic Sorting of Particles and Cells in Microfluidic Devices.Towards an Automated MEMS-based Characterization of Benign and Cancerous Breast Tissue using Bioimpedance Measurements.Dean flow-coupled inertial focusing in curved channels.Inertial focusing in microfluidics.The intersection of flow cytometry with microfluidics and microfabricationRare cell isolation and analysis in microfluidics.Microfluidic electrical sorting of particles based on shape in a spiral microchannelCell separation using tilted-angle standing surface acoustic waves.Microvortex for focusing, guiding and sorting of particles.Electrokinetic focusing and separation of mammalian cells in conductive biological fluids.Nanostructured substrates for isolation of circulating tumor cells.On-chip high-throughput manipulation of particles in a dielectrophoresis-active hydrophoretic focuser.Hydrodynamic mechanisms of cell and particle trapping in microfluidics.Inertial particle separation by differential equilibrium positions in a symmetrical serpentine micro-channel.A Microfluidic Device for Continuous-Flow Magnetically Controlled Capture and Isolation of Microparticles.Manipulating biological agents and cells in micro-scale volumes for applications in medicine.Applications of Microfluidics in Stem Cell Biology.Nanotechnology and cancer.Efficient manipulation of microparticles in bubble streaming flows
P2860
Q21563842-68A118C9-778D-4A29-B3E8-45DFC73EC981Q24597164-433F192D-1E91-4B68-89EA-C8A1CB6E03E1Q26827228-771E38A0-96D3-49DA-B578-5B6D61EF7778Q26851354-C1A9B462-58B7-40D5-91A6-075672FAFB8BQ27013997-424F8DA3-4C26-4968-B1F7-A4105F0C4F11Q27023509-44848570-08E9-4D45-ACFD-177E658602CFQ27025737-C81C66BB-C677-4EFF-A496-0964D6CE43BEQ27312742-3B0A0096-D660-4877-96C0-E72472B11B75Q27313736-84365E67-51C2-49C5-A192-110410382DF6Q27329875-B8854AB1-E25F-4C86-AD06-96A0FBEAA003Q27331483-95CD7C00-3838-4DEB-9040-4DE3421812AFQ27332388-67A6CAF2-B90C-46E0-B196-DC02E0A49B43Q27333061-82A38C50-F5C6-4516-B692-6FE10360D607Q27335856-5D444DC8-627F-4DDF-A9D3-37F0819BEFA7Q28080115-C80AC49F-36A1-4AB0-9558-34288D0A167EQ28081395-3AB78444-93A9-48BD-9ED1-51D7B9A92833Q28082820-57557E3A-E6AC-4EBF-9C9E-10A0E7EAC76DQ30357985-6DFCE201-87AE-452E-B25A-F9E8F6AEAE88Q30358492-38840E71-E6CB-4587-B848-ADC77008AB26Q30362655-5D310B45-953A-4F7E-8C54-1CC328AB0DB4Q30364419-D3FBD0A1-AAF1-443F-B8C4-386A3463229DQ30402291-F8D7752C-469B-4E85-8615-FBC55D2FC6B1Q30405950-1DA7E54C-8962-4FB7-A0B3-37F0C187FA4BQ30408598-1EA6ED3B-B6FC-40FA-9093-B095A3E00CF0Q30409237-8A35C6BC-BABD-4C62-9092-C2111549A868Q30416353-1EA91806-ED11-4B92-9E9B-737F4467C3C3Q30418365-305EFEF5-76AD-4D39-9FCC-BAFD239A0413Q30420903-7A930B62-ADE6-449C-8DF7-4A2BDF02AA98Q30424354-D42636FA-A288-440E-AD61-951F0E7C5A03Q30432501-EB81BB6B-0B19-4042-AAA3-AA7C6E617745Q30435192-8D60E00A-1CB8-455F-ACA7-0C154B8C037DQ30436669-F6D93377-E0CF-4C7A-A5D4-76AFC0F9B87EQ30437893-8134BA0F-732B-4BE6-AE46-A3D726F2B4D5Q30440491-DC7037E0-9F7B-4D5F-B46B-D6E6CFE16C43Q30440993-94EF6DDE-6F31-4E9B-83CC-5ED4814D0E14Q30443289-3BD9D3EB-B345-4EAE-AF0C-E6800E9C7209Q30445677-22CE202B-FF44-4BEE-B2B0-0BB7E4B26FABQ30446483-E4A40DCF-736F-4F21-BA3A-BBDD7D1062FFQ30452478-DA2954CA-6C6F-43AA-A6DD-B024A3578C6AQ30466951-BE9D0AF9-5E48-4875-BEFE-F2AD9A292E90
P2860
Continuous particle separation through deterministic lateral displacement.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Continuous particle separation through deterministic lateral displacement.
@en
Continuous particle separation through deterministic lateral displacement.
@nl
type
label
Continuous particle separation through deterministic lateral displacement.
@en
Continuous particle separation through deterministic lateral displacement.
@nl
prefLabel
Continuous particle separation through deterministic lateral displacement.
@en
Continuous particle separation through deterministic lateral displacement.
@nl
P2093
P356
P1433
P1476
Continuous particle separation through deterministic lateral displacement.
@en
P2093
Edward C Cox
James C Sturm
Lotien Richard Huang
Robert H Austin
P304
P356
10.1126/SCIENCE.1094567
P407
P577
2004-05-01T00:00:00Z