Cell separation on microfabricated electrodes using dielectrophoretic/gravitational field-flow fractionation.
about
Rapid and label-free separation of Burkitt's lymphoma cells from red blood cells by optically-induced electrokineticsPreimplantation mouse embryo selection guided by light-induced dielectrophoresisReview: Microbial analysis in dielectrophoretic microfluidic systems.Electrokinetic focusing and separation of mammalian cells in conductive biological fluids.Manipulation of magnetically labeled and unlabeled cells with mobile magnetic trapsDielectrophoretic separation of colorectal cancer cellsCell Separation by Non-Inertial Force Fields in Microfluidic SystemsMicrofluidic dielectrophoretic sorter using gel vertical electrodes.Differential analysis of human leukocytes by dielectrophoretic field-flow-fractionation.Electrodeless dielectrophoresis of single- and double-stranded DNAThe fractal dimension of cell membrane correlates with its capacitance: a new fractal single-shell modelTowards microfluidic technology-based MALDI-MS platforms for drug discovery: a review.Rare Cell Capture in Microfluidic DevicesApplications to cancer research of "lab-on-a-chip" devices based on dielectrophoresis (DEP).Insulator-based dielectrophoresis with β-galactosidase in nanostructured devicesDIELECTROPHORESIS-BASED MICROFLUIDIC SEPARATION AND DETECTION SYSTEMSQuantitative Biomechanics of Healthy and Diseased Human Red Blood Cells using Dielectrophoresis in a Microfluidic SystemBlood-on-a-chip.Protein biochip systems for the clinical laboratory.Highly efficient circulating tumor cell isolation from whole blood and label-free enumeration using polymer-based microfluidics with an integrated conductivity sensor.Micro- and nanotechnology in cell separation.Cell separation by dielectrophoretic field-flow-fractionation.Dielectrophoretic field-flow fractionation system for detection of aquatic toxicantsThe removal of human breast cancer cells from hematopoietic CD34+ stem cells by dielectrophoretic field-flow-fractionation.Membrane dielectric changes indicate induced apoptosis in HL-60 cells more sensitively than surface phosphatidylserine expression or DNA fragmentation.Manipulation of biological samples using micro and nano techniques.Biosensing with quantum dots: a microfluidic approach.Microfluidic approaches for cancer cell detection, characterization, and separation.Advances in field-flow fractionation for the analysis of biomolecules: instrument design and hyphenation.Microfluidic devices for the isolation of circulating rare cells: a focus on affinity-based, dielectrophoresis, and hydrophoresis.Continuous separation of colloidal particles using dielectrophoresis.Technologies for label-free separation of circulating tumor cells: from historical foundations to recent developments.Multiscale immunomagnetic enrichment of circulating tumor cells: from tubes to microchips.Clinical-scale purification of pluripotent stem cell derivatives for cell-based therapies.Fabrication of large-area polymer microfilter membranes and their application for particle and cell enrichment.Dielectrophoretic applications for disease diagnostics using lab-on-a-chip platforms.An integrated microfluidic platform for rapid tumor cell isolation, counting and molecular diagnosis.Interdigitated comb-like electrodes for continuous separation of malignant cells from blood using dielectrophoresis.Dielectrophoretic-field flow fractionation analysis of dielectric, density, and deformability characteristics of cells and particles.Droplet-based chemistry on a programmable micro-chip.
P2860
Q27317071-B5F67FE1-7A01-4015-AB74-44526FD826AEQ27331492-C6002153-85C3-4ED1-8388-11AA9824AD35Q30252735-69CA2A2E-77E9-4764-A723-FD4C43393E3BQ30435192-D25C6CD7-41A1-4923-9C47-C5B6AEEB10C0Q30477166-BC5096FB-90FC-479B-A237-278470AA48E5Q30480432-07DBC85F-3FAD-43E9-B199-948B006754F9Q30484402-251B8608-B426-4F9C-8DA4-8D3EDB0FEEA4Q33655556-47145CCD-8716-417A-A857-6F5CC3150AC7Q34173135-94DA77AF-D5D2-4AD1-A360-CADD0392F085Q34178942-46AA3E35-E4E2-453E-B374-35728E9E50CBQ34473934-A2670E14-1A35-49EF-838B-BA7A9218FDE2Q34621367-566B4247-EE31-4164-AB77-730F7D972F76Q34853984-49FEE0AD-BAFF-480A-A683-5BCEEEC44E5DQ35081093-42BA9800-B890-4D73-B50A-A8D767B2CCECQ35285936-86E1249D-85EE-4C56-BBF3-03C1B42B3B42Q35414283-D4337B4D-784D-42E2-A190-4C6E4F7EBDE4Q35653782-B1EC663D-AD53-4C66-AB57-21405422E4E8Q36186973-045B8C08-DC76-47AC-A148-9EB4568D2B12Q36322911-38A4BF8E-22BD-4503-BA73-8743E11CDA2BQ36853759-BDCCB293-5AB7-408F-989E-38793B0DFB3BQ36920303-46DD5D47-8E88-40A3-BFA0-6D87D5AAACB2Q37303763-DC76EBD9-191C-4F2F-B037-6A13153AD1E8Q37303768-C8A79A67-FFB5-4832-A55F-E2CFA885DC49Q37303777-848163BB-4039-4E60-82D0-0ACF169571A7Q37303786-8F6B6BF3-CB47-4430-BD4B-0C5F99ECFBCEQ37659881-33999446-9CEE-4265-BAD0-E00DE1E99901Q37967786-F3E3E21E-3C9B-4F12-96CC-B22B183B0C85Q37995903-BDC1C345-DDAF-45A6-8590-A46149332578Q38008923-3FD1918A-BF02-472B-9DE5-680A0F202E56Q38084216-4DA41C3C-838F-4B8E-84FF-57B583B47F10Q38084228-FEA4960A-9B4C-40D6-B959-A9EE7ECDC481Q38130449-CD91A3F8-8B3E-45AB-8B31-01248079F41DQ38167640-D6B27CE6-14C5-4F72-A4B0-8623A3CFD8AFQ38410411-83EE34D2-17C8-47AE-8286-5C970BDFF417Q38706025-F57E3775-B8C8-4152-86CC-0CBFF74DC5FEQ38837244-EE40D963-D4A2-4762-8ED5-629860B421AAQ39211338-9B52E44C-8154-4C84-B7EF-CDD81F9DF298Q39557180-417BA4EE-550D-40B2-8D56-14617AB7EC68Q39793366-F9B0320E-2E78-4ED5-80F6-232CD29EFFCDQ41823107-E3F7BDC2-2678-4373-91BF-33998B953508
P2860
Cell separation on microfabricated electrodes using dielectrophoretic/gravitational field-flow fractionation.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年学术文章
@wuu
1999年学术文章
@zh
1999年学术文章
@zh-cn
1999年学术文章
@zh-hans
1999年学术文章
@zh-my
1999年学术文章
@zh-sg
1999年學術文章
@yue
1999年學術文章
@zh-hant
name
Cell separation on microfabric ...... onal field-flow fractionation.
@en
Cell separation on microfabric ...... onal field-flow fractionation.
@nl
type
label
Cell separation on microfabric ...... onal field-flow fractionation.
@en
Cell separation on microfabric ...... onal field-flow fractionation.
@nl
prefLabel
Cell separation on microfabric ...... onal field-flow fractionation.
@en
Cell separation on microfabric ...... onal field-flow fractionation.
@nl
P2093
P356
P1433
P1476
Cell separation on microfabric ...... onal field-flow fractionation.
@en
P2093
P304
P356
10.1021/AC981250P
P407
P577
1999-03-01T00:00:00Z