about
Laser modification of preformed polymer microchannels: application to reduce band broadening around turns subject to electrokinetic flow.Temperature measurement in microfluidic systems using a temperature-dependent fluorescent dye.Microfluidic directed formation of liposomes of controlled size.Accurate optical analysis of single-molecule entrapment in nanoscale vesicles.Microfluidic directed self-assembly of liposome-hydrogel hybrid nanoparticles.Embedded MicroHeating Elements in Polymeric MicroChannels for Temperature Control and Fluid Flow Sensing.Hybrid cell adhesive material for instant dielectrophoretic cell trapping and long-term cell function assessment.Fabrication of plastic microfluid channels by imprinting methods.Dielectrophoretic capture of mammalian cells using transparent indium tin oxide electrodes in microfluidic systems.Microfluidic mixing and the formation of nanoscale lipid vesicles.Controlled vesicle self-assembly in microfluidic channels with hydrodynamic focusing.Liposome-templated supramolecular assembly of responsive alginate nanogels.Separation and metrology of nanoparticles by nanofluidic size exclusion.The Art in Science of MicroTAS: the 2013 edition.Quantum dot FRET-based probes in thin films grown in microfluidic channels.Surface modification of poly(methyl methacrylate) for improved adsorption of wall coating polymers for microchip electrophoresis.Capillarity induced solvent-actuated bonding of polymeric microfluidic devices.The art in science of microTAS.DNA molecules descending a nanofluidic staircase by entropophoresis.Art in Science.Generalized temperature measurement equations for Rhodamine B dye solution and its application to microfluidics.Microfluidic based contactless dielectrophoretic device: Modeling and analysisMicrowave-induced adjustable nonlinear temperature gradients in microfluidic devicesNanofluidic structures with complex three-dimensional surfacesPreparation of nanoparticles by continuous-flow microfluidicsAg/AgCl microelectrodes with improved stability for microfluidicsCellular Immobilization within Microfluidic Microenvironments: Dielectrophoresis with Polyelectrolyte MultilayersFabrication techniques to realize CMOS-compatible microfluidic microchannelsControl of Flow Direction in Microfluidic Devices with Polyelectrolyte Multilayers
P50
Q31004059-025FC55D-45F1-4010-B2D7-3C0217845B06Q31011402-B8C4070C-6457-47F4-9BF2-C3990618E149Q33282445-62AEE9DC-8BFA-4BAE-84A1-ACC2CF390D88Q33516963-CC4AA6E1-D1C2-46A6-8AA5-A33BFDB528ABQ33568034-B542E65E-682E-46A1-82A8-6392E838C220Q36862137-E563E15A-D1D2-4399-B259-ED849AB7A61EQ39518746-118123E8-272C-481B-96DA-8B6A7763CB81Q40875351-AA308E54-990C-4D14-84E4-6D560C044883Q42804440-E59FB79B-493E-4ED5-88EF-8297E6840CB1Q43113460-8567BFD4-1CAE-413C-A9ED-D456694F318FQ44783153-66F24770-7D5B-47B8-8CD2-C663E4391E9FQ46703663-F1740C2E-3E28-4FCA-A810-DDFA649CB2BBQ47419024-6781E90A-0892-41F4-A06D-A9CEC1BAC849Q48275693-D7B80E58-7F7D-4624-81B3-32BEB8FB5F2AQ50569378-63BF295E-F25A-4F47-9256-8102D579D1E0Q51135581-18C761CE-7EDB-4714-A368-37FB1B79E081Q51204392-854502A2-C057-43F5-AAB8-91E935C8CE0DQ51540562-02FC9911-F917-40D6-BC8F-149EE3F68FBDQ51542449-3F36C537-5028-4C91-887A-037C17520733Q51550698-12AAF659-95D2-415A-871E-3976D099C3A4Q51789420-E4C50F74-9B13-466B-8270-6654BBFEE3B8Q54980894-5278D717-2CB2-4E05-B4E0-82C68657C2FBQ58194318-D58B408E-5D4F-4286-89E1-0079539F5F74Q58194320-1B84D1E3-4B7E-4FF1-8FC4-16734176ACE4Q58194322-0E3D69CE-0EEC-4DE2-BFFF-7E20FA2CE85DQ58194326-86FD054D-372C-4364-A7F5-E7F3A0158580Q58194327-642530EC-E1F7-456C-A4CF-236C3333DA8EQ58194344-7267D994-168D-4E26-9F69-C38637219E26Q58194349-D67B449D-F208-44F7-8597-0958C183218D
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
研究者
@zh
name
Michael Gaitan
@ast
Michael Gaitan
@en
Michael Gaitan
@es
Michael Gaitan
@nl
type
label
Michael Gaitan
@ast
Michael Gaitan
@en
Michael Gaitan
@es
Michael Gaitan
@nl
prefLabel
Michael Gaitan
@ast
Michael Gaitan
@en
Michael Gaitan
@es
Michael Gaitan
@nl
P1053
T-2615-2018
P106
P31
P3829
P496
0000-0003-2689-448X