Pressure-driven transport of confined DNA polymers in fluidic channels
about
Structure and dynamics of single DNA molecules manipulated by magnetic tweezers and or flow.Dynamics of individual polymers using microfluidic based microcurvilinear flowElectrophoretic mobilities of counterions and a polymer in cylindrical pores.Hydrodynamics of DNA confined in nanoslits and nanochannels.Single-molecule analysis enables free solution hydrodynamic separation using yoctomole levels of DNAElectrokinetically-driven transport of DNA through focused ion beam milled nanofluidic channels.Beyond gel electrophoresis: microfluidic separations, fluorescence burst analysis, and DNA stretching.Scaling theory of polymer translocation into confined regionsChromatographic separations in a nanocapillary under pressure-driven conditionsDirected self-organization of single DNA molecules in a nanoslit via embedded nanopit arraysFlow of DNA in micro/nanofluidics: From fundamentals to applicationsNanofluidics in chemical analysis.Nanofluidic devices towards single DNA molecule sequence mapping.Microfluidic systems for single DNA dynamics.Knotting of linear DNA in nano-slits and nano-channels: a numerical study.Pressure-driven transport of particles through a converging-diverging microchannelMargination and stretching of von Willebrand factor in the blood stream enable adhesion.Critical adsorption of a flexible polymer confined between two parallel interacting surfaces.Cross stream chain migration in nanofluidic channels: Effects of chain length, channel height, and chain concentration.Equilibrium partitioning of macromolecules in confining geometries: improved universality with a new molecular size parameter.Size and shape of excluded volume polymers confined between parallel plates.On-chip hydrodynamic chromatography of DNA through centimeters-long glass nanocapillaries.Flow-induced translocation of polymers through a fluidic channel: a dissipative particle dynamics simulation study.Revisiting blob theory for DNA diffusivity in slitlike confinement.Cross-streamline migration of a semiflexible polymer in a pressure driven flow.Biopolymer filtration in corrugated nanochannels.An immersed boundary method for Brownian dynamics simulation of polymers in complex geometries: application to DNA flowing through a nanoslit with embedded nanopits.DNA separation and enrichment using electro-hydrodynamic bidirectional flows in viscoelastic liquids.Polymer scaling and dynamics in steady-state sedimentation at infinite Péclet number.Beyond the SERS: Raman enhancement of small molecules using nanofluidic channels with localized surface plasmon resonance.The behavior of a magnetic filament in flow under the influence of an external magnetic field.Conformation and Dynamics of DNA Confined in Slitlike Nanofluidic Channels
P2860
Q33385049-79583C2B-9C04-4208-86EA-9289296CF7CAQ33771366-5C16F2AE-F24A-4C84-B605-D02FE394D28BQ34296464-2619D092-6AC8-428E-BDEF-1D8D8181731AQ34808549-9C55DD4F-0F8E-48D8-B27A-FE7078C1212CQ35069732-DCFE65EC-AA0B-4E79-BAF2-465323CCEEEAQ36669236-564B55CB-EF91-4D9B-AFDF-5CADD4288A44Q36678042-9DF7F529-7CBD-48C5-9B59-A6D977C03245Q36908338-BBAA2D07-E01E-485C-A470-CF12F4B3FD62Q36973081-AA3825AC-A46B-45E0-83BC-78CA807F9525Q37068262-ED810BD1-2B2D-42D1-9E65-B859EF9F03F5Q37119828-B942FB95-4B68-496F-A25E-A65DCDB36C46Q37697545-2EA9A21E-00C9-4159-9A9D-C115AD345AFAQ38027807-E1EB14F7-1D94-4D0B-B34A-3529E12D109EQ38058789-297B33A8-C57A-4172-AA67-DFFBD4F333AEQ40972918-AEFA5CD6-C061-4571-B0E1-3A96FF9842AAQ42109874-70B18129-B060-4FE1-A530-55404E598DB6Q44192855-C4D26BAD-17FF-4D5A-B016-2EC26F7B2A85Q45790238-8A402441-E258-4E61-B93C-0523217978E3Q47191823-39003FA6-8A33-48C9-A8BF-2AF97D4D5D41Q47239742-F28413A4-3194-4283-B324-2ED1DF910140Q47379660-05E8172D-C3FD-40CF-BBE4-8468A3E594EDQ48030993-C910292A-5075-4491-9443-1B64B33DAB88Q48570203-DB64253F-1445-4C7D-B422-C0C455D70499Q50314711-27B04020-B65A-41A2-8E0B-D763CBE05B9CQ50508618-CD82E13E-86B7-472E-A57F-3554057564AFQ51096965-578F9DBA-0F61-4E65-A028-9AAB6FDF94BDQ51452265-079D713F-7508-4D9E-BFF5-B63FF7F162C4Q51468030-EC44363A-BB20-4F57-B7DD-9BDA7E0A5E68Q51895655-61452DF7-6DC2-4B23-9BF9-D88CE0CC56D0Q53443860-5DCD6CA6-AAD9-49B9-BC54-6550194C0423Q54067151-3DACA66E-7223-4C60-A993-5A84E14CDD2BQ57938554-D45506AD-3EEF-463D-BFB7-F83816086D1B
P2860
Pressure-driven transport of confined DNA polymers in fluidic channels
description
2006 nî lūn-bûn
@nan
2006 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Pressure-driven transport of confined DNA polymers in fluidic channels
@ast
Pressure-driven transport of confined DNA polymers in fluidic channels
@en
type
label
Pressure-driven transport of confined DNA polymers in fluidic channels
@ast
Pressure-driven transport of confined DNA polymers in fluidic channels
@en
prefLabel
Pressure-driven transport of confined DNA polymers in fluidic channels
@ast
Pressure-driven transport of confined DNA polymers in fluidic channels
@en
P2093
P2860
P356
P1476
Pressure-driven transport of confined DNA polymers in fluidic channels
@en
P2093
Derek Stein
Frank H J van der Heyden
Wiepke J A Koopmans
P2860
P304
15853-15858
P356
10.1073/PNAS.0605900103
P407
P50
P577
2006-10-17T00:00:00Z