about
High-throughput sheathless and three-dimensional microparticle focusing using a microchannel with arc-shaped groove arraysDean-flow-coupled elasto-inertial three-dimensional particle focusing under viscoelastic flow in a straight channel with asymmetrical expansion-contraction cavity arraysDevelopment of a novel magnetophoresis-assisted hydrophoresis microdevice for rapid particle ordering.Fundamentals and applications of inertial microfluidics: a review.Hybrid microfluidics combined with active and passive approaches for continuous cell separation.Continuous plasma extraction under viscoelastic fluid in a straight channel with asymmetrical expansion-contraction cavity arrays.A label-free and high-throughput separation of neuron and glial cells using an inertial microfluidic platformA rapid, maskless 3D prototyping for fabrication of capillary circuits: towards urinary protein detection.High-Throughput Separation of White Blood Cells From Whole Blood Using Inertial Microfluidics.Recent progress of particle migration in viscoelastic fluids.On-Chip Microparticle and Cell Washing Using Coflow of Viscoelastic Fluid and Newtonian Fluid.A novel viscoelastic-based ferrofluid for continuous sheathless microfluidic separation of nonmagnetic microparticles.Liquid metal-based amalgamation-assisted lithography for fabrication of complex channels with diverse structures and configurations.Investigation of particle lateral migration in sample-sheath flow of viscoelastic fluid and Newtonian fluid.Simple, low-cost fabrication of semi-circular channel using the surface tension of solder paste and its application to microfluidic valves.Enhanced particle self-ordering in a double-layer channel.Double-Mode Microparticle Manipulation by Tunable Secondary Flow in Microchannel With Arc-Shaped Groove Arrays.The Continuous Concentration of Particles and Cancer Cell Line Using Cell Margination in a Groove-Based ChannelLiquid metal-filled magnetorheological elastomer with positive piezoconductivityMicrofluidic Mass Production of Stabilized and Stealthy Liquid Metal NanoparticlesFundamentals of Differential Particle Inertial Focusing in Symmetric Sinusoidal MicrochannelsHigh-Throughput, Off-Chip Microdroplet Generator Enabled by a Spinning Conical FrustumSheathless separation of microalgae from bacteria using a simple straight channel based on viscoelastic microfluidicsAnalysis of Hydrodynamic Mechanism on Particles Focusing in Micro-Channel FlowsTunable Particle Focusing in a Straight Channel with Symmetric Semicircle Obstacle Arrays Using Electrophoresis-Modified Inertial EffectsIntelligent image-activated cell sorting 2.0.
P50
Q30365187-ED47D6C8-D9AA-4213-813C-6C2D7E1B45D2Q30378050-F2D86C7C-B303-4905-A6A7-34141EA2F717Q36049522-B388850A-713A-4D9F-BAEF-36C09D259915Q38638604-B4A9F183-12D6-48A0-A8D1-1DA23370108BQ38804806-D77F77A8-3516-4C23-ADA4-58763A49953BQ39314400-7948F338-C31A-40F5-AD39-0419D384D09FQ41564900-983C918A-106F-43B1-840C-A78302A4110EQ47205814-F6A6A5A6-5CCF-41CC-BEFE-0E82E6030DF8Q47723154-31061739-DC58-4E17-9ADF-76B1070E55A3Q47728576-8D9CF006-567C-466D-8F6F-6B3246DE1E78Q47820172-C84D412B-8BBA-4200-A7D4-4D4ADC9B549EQ48311149-96859468-A9A8-46BA-96D6-6D0F0C80381EQ50051853-C17F1A00-C2AC-46D9-94D2-73CA2335685FQ51347339-E486F98A-BECD-4BF6-B115-BDAC8160D3C5Q51417184-E8DE6070-E9ED-4DFD-9565-633AEC89E6CDQ52687565-CCF921F3-28AA-46A8-9CEF-70296D7F8E24Q53795348-B890C907-C38E-47B6-AE3A-06F038BC031CQ58585751-CAC8355D-CB3D-4795-A6E6-4A36296274BEQ64066909-9F994BDA-8D25-4110-9DAE-2D12C2CBEBDCQ88437847-5C19A2D4-DED1-45E8-B7DE-8C0C6D1C85D9Q91165024-46D5876C-9175-48ED-A9AE-58040BA840BDQ91477880-A60B1309-98E6-47C0-B6BB-9DE37EF25330Q91944098-C5341687-2203-4B95-9ADE-3BC9E6CAEE9AQ92860348-515E67E5-4023-475A-8B9C-AE94B8329EEDQ92888552-7EEC2D8F-F812-477E-86CD-E6F00765954EQ95851868-987D2685-98F7-44A1-9262-0480B7206294
P50
description
researcher
@en
wetenschapper
@nl
name
Dan Yuan
@en
Dan Yuan
@nl
type
label
Dan Yuan
@en
Dan Yuan
@nl
prefLabel
Dan Yuan
@en
Dan Yuan
@nl
P31
P496
0000-0002-5472-232X