On the propagation of concentration polarization from microchannel-nanochannel interfaces. Part II: Numerical and experimental study.
about
Fluctuations of DNA mobility in nanofluidic entropic traps.Stabilization of ion concentration polarization using a heterogeneous nanoporous junction.Over-limiting current and control of dendritic growth by surface conduction in nanopores.Electroosmotic pump performance is affected by concentration polarizations of both electrodes and pump.Dendrite Suppression by Shock Electrodeposition in Charged Porous MediaRecent developments in electrophoretic separations on microfluidic devices.Teorell instability in concentration polarization.Effects of constant voltage on time evolution of propagating concentration polarization.Ion diffusion coefficient measurements in nanochannels at various concentrations.Probing the extended space charge by harmonic disturbances.Nafion Film Based Micro-nanofluidic Device for Concurrent DNA Preconcentration and Separation in Free Solution.Electromigration dispersion in a capillary in the presence of electro-osmotic flow.Effect of wall permittivity on electroviscous flow through a contraction.Enrichment of nanoparticles and bacteria using electroless and manual actuation modes of a bypass nanofluidic device.Analysis of electrolyte transport through charged nanopores.Deionization shocks in microstructures.Influence of temperature gradients on charge transport in asymmetric nanochannels.Upscaling scheme for long-term ion diffusion in charged porous media.A concentration-independent micro/nanofluidic active diode using an asymmetric ion concentration polarization layer.Time-dependent ion transport in heterogeneous permselective systems.Effect of geometry on concentration polarization in realistic heterogeneous permselective systems.Electrolytic drops in an electric field: A numerical study of drop deformation and breakup.Role of electro-osmosis in the impedance response of microchannel-nanochannel interfaces.The nonlinear electromigration of analytes into confined spaces.Theory of multi-species electrophoresis in the presence of surface conduction.Recent advancements in ion concentration polarization.Non-equilibrium electrokinetic micromixer with 3D nanochannel networks.An electrokinetic study on tunable 3D nanochannel networks constructed by spatially controlled nanoparticle assembly.Overlimiting current in a microchannel.Ion concentration polarization in a single and open microchannel induced by a surface-patterned perm-selective film.Microchip electrophoresis of DNA following preconcentration at photopatterned gel membranes.Radial sample preconcentration.Concentration dependence of nanochannel impedance and the determination of surface charge.Asymmetric-Fluidic-Reservoirs Induced High Rectification Nanofluidic Diode
P2860
Q30589856-07629CA5-0920-48FD-84BA-7ECC337060FEQ33591174-3CE69887-0AC4-4313-AC62-89045A9C1767Q34507799-394F8A84-14D8-40D2-8D71-CBC5B4BA4660Q34812399-4EA718CD-7181-47DB-B602-1862F2526B65Q37010491-D6AA3AAA-33CB-4CD3-BE45-43A41DA8C9B1Q37835190-B3D3D6FD-F68C-436A-80F7-5993B486EA45Q38858679-75E51A6E-6C84-400D-84F8-F002CBE39411Q39077624-649BCD27-AC39-4629-862E-559C0F1C8A66Q39182133-2F6DD8E9-7942-4CB9-B1F9-326F561550E8Q39412920-230CF950-943E-4EED-B0D5-6120A7568264Q41789876-3F096871-C0A0-46A0-9867-B6142E86F6E9Q42082072-075C7228-AC2D-4575-99CE-84CC399A2B93Q42182252-0FD94AF7-0183-43C7-B67B-5D92FB0CEC01Q42265433-99A72717-2BD9-419D-BCC8-F091EE2F9EFAQ46115856-2F2D6151-C88D-49CD-BF61-1349F919E8CBQ46333781-576C5600-8684-4264-85F7-D4FECCFBAD91Q47314605-01CFD7EF-A32D-4F38-8058-755EA91D3885Q47629928-FA35DB34-0A05-4A04-98F4-2E7D165E4F84Q48016719-11A18C62-CEB5-411F-9D73-62C8AF808355Q50260256-48EEE3DA-4BC9-49A2-BBB7-2C8ED07D7FFBQ50456368-26A32BFF-2365-4A4B-A55A-9F878432D29FQ50867248-CC925FA5-10C1-4EEB-8F9E-4394D17107C8Q51291736-8F2B0085-50DE-4F86-BCB4-E34678415B7FQ51323440-EE5D36AE-1294-462C-AFEA-AAC3DA6B102DQ51355315-C1DE48C8-A06C-4D46-98BF-0DC159DF4B79Q51452140-DF28DD65-9AB7-4011-82CC-A36F17D2AC8DQ51498539-BC904752-C208-40B6-A30A-B38DEEA6F58CQ51504788-7E02488B-ABEA-415F-814A-731FC0DD01A9Q51511209-E78E5386-1C1B-45ED-8933-983AC6764A6CQ51534474-CC3FCD63-3B87-4BD3-A821-67861EE792CDQ51539920-1BD18CC5-52FF-4EE1-BE14-3B560CA4667AQ51550954-D508D000-EEF6-4326-8635-18A7AF4CAC5DQ53574749-3CC27E4A-68A0-40C8-8533-3FA6D372C55FQ58733772-6BE54B54-06ED-4C26-80D4-7826D932A113
P2860
On the propagation of concentration polarization from microchannel-nanochannel interfaces. Part II: Numerical and experimental study.
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
2009年论文
@zh
2009年论文
@zh-cn
name
On the propagation of concentr ...... erical and experimental study.
@en
type
label
On the propagation of concentr ...... erical and experimental study.
@en
prefLabel
On the propagation of concentr ...... erical and experimental study.
@en
P2860
P356
P1433
P1476
On the propagation of concentr ...... erical and experimental study.
@en
P2093
Juan G Santiago
P2860
P304
P356
10.1021/LA803318E
P407
P577
2009-04-01T00:00:00Z