about
Micro total analysis systems: fundamental advances and biological applicationsAn integrated microfluidic device for monitoring changes in nitric oxide production in single T-lymphocyte (Jurkat) cells.Microchip separations in reduced-gravity and hypergravity environments.The effect of photomask resolution on separation efficiency on microfabricated devices.Microchip flow cytometry using electrokinetic focusing.Integration of a nanostructured dielectrophoretic device and a surface-enhanced Raman probe for highly sensitive rapid bacteria detection.Micro Total Analysis Systems: Fundamental Advances and Applications.Integrating Optical Fiber Bridges in Microfluidic Devices to Create Multiple Excitation/Detection Points for Single Cell Analysis.Out-of-plane integration of a multimode optical fiber for single particle/cell detection at multiple points on a microfluidic device with applications to particle/cell counting, velocimetry, size discrimination and the analysis of single cell lysateIntegrated microfluidic device for the separation and electrochemical detection of catechol estrogen-derived DNA adducts.Paper-based microfluidic devices for analysis of clinically relevant analytes present in urine and saliva.Single-molecule studies of oligomer extraction and uptake of dyes in poly(dimethylsiloxane) films.Electrokinetic trapping using titania nanoporous membranes fabricated using sol-gel chemistry on microfluidic devices.Two-dimensional electrochromatography/capillary electrophoresis on a microchip.Flow cytometry of Escherichia coli on microfluidic devices.Microfluidic devices for the high-throughput chemical analysis of cells.Static and dynamic acute cytotoxicity assays on microfluidic devices.Sol-gel modified poly(dimethylsiloxane) microfluidic devices with high electroosmotic mobilities and hydrophilic channel wall characteristics.Synthesis and characterization of a poly(dimethylsiloxane)-poly(ethylene oxide) block copolymer for fabrication of amphiphilic surfaces on microfluidic devices.A novel, environmentally friendly sodium lauryl ether sulfate-, cocamidopropyl betaine-, cocamide monoethanolamine-containing buffer for MEKC on microfluidic devices.Single molecule studies of solvent-dependent diffusion and entrapment in poly(dimethylsiloxane) thin films.High efficiency micellar electrokinetic chromatography of hydrophobic analytes on poly(dimethylsiloxane) microchips.Synthesis and pharmacology of irreversible affinity labels as potential cocaine antagonists: aryl 1,4-dialkylpiperazines related to GBR-12783.High-throughput microfluidic device for single cell analysis using multiple integrated soft lithographic pumps.Surface engineering of poly(dimethylsiloxane) microfluidic devices using transition metal sol-gel chemistry.Generation of nonbiased hydrodynamic injections on microfluidic devices using integrated dielectric elastomer actuators.Demonstration of an integrated electroactive polymer actuator on a microfluidic electrophoresis device.Micellar electrokinetic chromatography of fluorescently labeled proteins on poly(dimethylsiloxane)-based microchips.Microchip devices for high-efficiency separations.Single-cell manipulation and analysis using microfluidic devicesEffects of the electric field distribution on microchip valving performanceElectroosmotically induced hydraulic pumping on microchips: differential ion transportElectroosmotically induced hydraulic pumping with integrated electrodes on microfluidic devicesHigh-efficiency, two-dimensional separations of protein digests on microfluidic devicesSingle cell analysis on microfluidic devicesChemical analysis of single mammalian cells with microfluidics. Strategies for culturing, sorting, trapping, and lysing cells and separating their contents on chipsLowering the UV Absorbance Detection Limit in Capillary Zone Electrophoresis Using a Single Linear Photodiode Array DetectorCellular Analysis Using Microfluidics
P50
Q27023958-4DB3D4E7-7D5B-4B6D-B3BB-EBF3B4B1A227Q30573981-EBCB4384-4B5D-4ABE-AEC7-1661386AC6B4Q33229341-9F132BE7-845B-4443-972C-097DBE3C5F6DQ33263508-39D19740-8188-4530-A2B6-81FAE6BE0AB2Q33929331-49DE03C2-65F0-4E43-BCD5-5463EC73F825Q35553121-048BBD07-6556-4343-8837-554FE6F6736CQ35850135-60D4F97C-E459-4EA9-A5F8-2EA237FDC10DQ36132256-A881211A-B8D7-4D16-A70F-20356935EE09Q36210883-640E894B-9C57-4E56-92EB-28D4EAF9FBF4Q39819664-B885721A-41E5-4A2F-9135-9276250843F4Q43083113-780DA26C-4DB2-4EBB-9AC4-EAABA0DBCFF5Q43237986-E19E7D10-4B66-4BF6-BEDD-209CE86D8089Q43282689-3E5E2E26-B8A2-4C42-98DB-237ABA858BA4Q43637783-EB5760E2-143E-4625-B3BB-F0DD01355A56Q43808150-B5945AFB-1EE4-4E4C-92AF-D5ECC756BE2CQ44638280-7CA877E1-54E2-47DF-AE9C-D6B8764BB17DQ45222794-00B0C8FF-2B31-4902-BF27-F3BBECE1DAB1Q45283597-BA547334-B675-4B2C-B7D0-98762C1DEFF9Q45942493-F9EBAB97-C270-483C-9CCF-605F85FD66C1Q46171214-8EFD8D2D-F146-4838-A1AA-F263C08C603DQ46249161-DA5ABAAB-5E72-479C-8830-C3D5F4FD3EDEQ46913968-CB69D533-F8EE-48F3-9EA3-A5743EEB17B4Q48430806-F8A45C7C-10DB-463A-AE28-CBD2143AC0B1Q50231178-32530163-8E41-4938-A18B-B804F49968BCQ51225002-500DC2C5-4D4C-4A29-A98C-2A2FABDE51C9Q51563172-D80FEE68-F2F3-4F36-8159-F403027BBBDCQ51565201-81B05FF2-AE4E-4344-920D-0D810B664241Q51585780-AA4E1716-5322-4CF9-9835-7F0240BF1D5CQ51604624-0B99CE0C-7EE0-47BF-856E-F57ECC66F926Q56893822-01526868-7632-488D-BE86-B149FAFA3A5EQ73351781-46023342-12DB-4E6E-BB99-9D7BE41053BCQ73875787-6ED7E356-B59E-4E26-BE72-BEF95E5C193AQ74457801-BA697EB9-9710-4627-B7A1-5493BDB75035Q79193829-3F159CEE-C30A-4C80-BB5B-C035A62DD64FQ79767188-67FBFCE4-176A-4F11-98AF-20E29D846FBDQ80259195-3B7EDE08-CA0E-4DC0-A9D9-05A9BF4333B1Q84283516-93989B7B-D5A3-40DA-A4F6-40CA70C73B3DQ89267652-E708AD92-5FEF-40ED-857E-47144DAC6BB9
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Christopher T Culbertson
@ast
Christopher T Culbertson
@en
Christopher T Culbertson
@es
Christopher T Culbertson
@nl
Christopher T Culbertson
@sl
type
label
Christopher T Culbertson
@ast
Christopher T Culbertson
@en
Christopher T Culbertson
@es
Christopher T Culbertson
@nl
Christopher T Culbertson
@sl
prefLabel
Christopher T Culbertson
@ast
Christopher T Culbertson
@en
Christopher T Culbertson
@es
Christopher T Culbertson
@nl
Christopher T Culbertson
@sl
P106
P21
P31
P496
0000-0002-6833-3237