about
Dynamics of Drosophila embryonic patterning network perturbed in space and time using microfluidicsCirculating Tumor Cell Isolation and Analysis.Laser micromachined hybrid open/paper microfluidic chips.Integrated acoustic immunoaffinity-capture (IAI) platform for detection of PSA from whole blood samples.Microfluidic technologies for synthetic biologyNano/Microfluidics for diagnosis of infectious diseases in developing countriesOPTIMIZATION OF A MICROFLUIDIC DEVICE FOR DIFFUSION-BASED EXTRACTION OF DMSO FROM A CELL SUSPENSION.Computerized microfluidic cell culture using elastomeric channels and Braille displaysCombinatorial mixing of microfluidic streams.Integrated microfluidic platform for oral diagnosticsMicrochip-based homogeneous immunoassay using fluorescence polarization spectroscopy.Comparison of separation performance of laser-ablated and wet-etched microfluidic devices.Immunoassay Methods and their Applications in Pharmaceutical Analysis: Basic Methodology and Recent Advances.From cleanroom to desktop: emerging micro-nanofabrication technology for biomedical applications.Microfluidic chips for clinical and forensic analysis.Towards microfluidic technology-based MALDI-MS platforms for drug discovery: a review.Gravity-induced swirl of nanoparticles in microfluidicsInstantaneous physico-chemical analysis of suspension-based nanomaterialsMicrofluidics made easy: A robust low-cost constant pressure flow controller for engineers and cell biologistsMicrofluidics without pumps: reinventing the T-sensor and H-filter in paper networks.Concentration gradient immunoassay. 1. An immunoassay based on interdiffusion and surface binding in a microchannel.Biomolecular gradients in cell culture systems.Microfluidics for drug discovery and development: from target selection to product lifecycle management.A photoinduced nanoparticle separation in microchannels via pH-sensitive surface traps.A microfluidic detection system based upon a surface immobilized biobarcode assay.A perfusable 3D cell-matrix tissue culture chamber for in situ evaluation of nanoparticle vehicle penetration and transportSystem Integration - A Major Step toward Lab on a Chip.Microfluidic devices for diagnostic applications.Design of pressure-driven microfluidic networks using electric circuit analogy.On-chip processing of particles and cells via multilaminar flow streams.Thirty-minute total synthesis of microfluidic systems and functionalized porous elements via "living" radical photo-polymerization.Multicomponent diffusion coefficients from microfluidics using Raman microspectroscopy.3D-Printed Microfluidics.ELISA-type assays of trace biomarkers using microfluidic methods.Sequential CD34 cell fractionation by magnetophoresis in a magnetic dipole flow sorterUncertainty quantification in modeling of microfluidic T-sensor based diffusion immunoassay.Fluidic dielectrophoresis: The polarization and displacement of electrical liquid interfaces.On-chip antibody immobilization for on-demand and rapid immunoassay on a microfluidic chip.Dynamic bioprocessing and microfluidic transport control with smart magnetic nanoparticles in laminar-flow devices.Concentration gradient immunoassay. 2. Computational modeling for analysis and optimization.
P2860
Q24657141-733D1E5C-8E86-4607-BBC7-CE16182DA44EQ30358229-F770F38C-FED5-4307-B704-F8819D1446D9Q30423547-FBB6D171-466B-421A-A978-981ADC92D725Q30427918-541F3F6D-A020-496C-BDE5-6ED628CCF800Q30474859-3C157CA9-2910-4D15-A4BA-88715BA58369Q30476297-5DD2FFDA-2BE7-412A-BB89-695E2AFDFA3DQ30485618-76E549BB-DD92-426C-A84C-67E5E9F2F3D2Q30499896-ABC66F98-146E-4A9E-A511-BDD1299DB061Q33205104-BD17E69F-0436-488B-8F2B-06A78A9C487DQ33282127-14E87483-FD2C-4DAB-9E50-34F4CB1B2F62Q33419169-A4EA17AA-2356-47E4-B289-22B129D2AE1DQ33688162-11AEDC69-D1A2-4100-B6B8-0FA124F698DFQ34344761-29D3CD06-71C5-4034-9B35-6D6771AE1226Q34551198-33347729-F864-49D0-A57D-8254BFD8AEB9Q34561467-27C2F5EF-0B69-4620-8E9F-E64D1FD6CD60Q34621367-78C557FB-B61B-4CD9-BE1F-840A40D9DC45Q35101059-6FD508FA-6254-4D9B-90C0-FBFC8BD9F3BFQ35550945-B9A8AC1D-EDD1-4370-896E-95DBEE9D9B68Q36922360-AA492D82-E3B1-4A7C-948B-091D3134689EQ36966282-15EE42C8-B8C8-4F5E-8E2A-B4453E4AEFEBQ36990006-C2C1EE5B-1FD2-4CC6-8659-031C09AE8B24Q37038439-7A77B3CA-8F5B-4378-AA2E-4C9DF72EAF06Q37055383-AE160E0A-1CB2-4D7B-A951-54C7816B3C89Q37092345-C2AF38B5-479F-4829-9269-E6F6CC70DB24Q37359258-8E91A46C-DF21-4B0C-BBAA-20B020899D5DQ37484451-850E3CE2-3BDD-42FD-8146-8FC8D82A0142Q37879713-5AB347AF-1C34-473C-AAA3-DC79C9E3C63AQ37894740-9F5119EC-60DE-4615-B07E-CC3B6E87D150Q37969625-04D59745-D3BC-4316-8094-FE7CF7434382Q38154799-7EC2B9E0-CD64-448D-BCDE-9BAF84C11FD9Q38422832-9F58976E-A86E-418C-B5CD-6451D64CEFCCQ38702930-2B72352D-A71C-489B-9150-83672DE9A0B4Q38725908-AD08DAC5-EEC7-44F2-99B8-CBD0AEB3BAEBQ39145007-0142FED8-E87B-4210-89DE-BB4C705C8D94Q39760997-52945DCE-B6A8-4EAA-923D-8743A70F5361Q40011863-3C5A0CC0-EE00-43E9-BCEE-FF2C91E6B4C6Q41671225-454DA439-6007-4ADF-A857-4EB047070B42Q41844789-4718E3A8-58EF-4896-8EF3-70C4E22F01E9Q41855830-D064CF5C-F322-4868-B5BC-B15C8A532690Q41997380-728C1B44-9441-4B27-87E1-22730484F429
P2860
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
2001年论文
@zh
2001年论文
@zh-cn
name
A rapid diffusion immunoassay in a T-sensor.
@en
type
label
A rapid diffusion immunoassay in a T-sensor.
@en
prefLabel
A rapid diffusion immunoassay in a T-sensor.
@en
P2093
P2860
P356
P1433
P1476
A rapid diffusion immunoassay in a T-sensor.
@en
P2093
Hawkins KR
Kamholz AE
Schilling EA
P2860
P2888
P304
P356
10.1038/88135
P577
2001-05-01T00:00:00Z