about
Spontaneous Migration of Polyethylene Molecule Sheathed inside Single-Walled Carbon Nanotube for Nano-Heat Pipe.Depinning and creeplike motion of wetting fronts in weakly vibrated granular mediaMolecular momentum transport at fluid-solid interfaces in MEMS/NEMS: a reviewWettability and Coalescence of Cu Droplets Subjected to Two-Wall Confinement.Criteria for Applying the Lucas-Washburn Law.Melt infiltration: an emerging technique for the preparation of novel functional nanostructured materials.Anomalous capillary filling and wettability reversal in nanochannels.Depinning and dynamics of imbibition fronts in paper under increasing ambient humidity.Surface hydration drives rapid water imbibition into strongly hydrophilic nanopores.Filling of charged cylindrical capillaries.Influences of polarity and hydration cycles on imbibition hysteresis in silica nanochannels.Nanofluidics: A New Arena for Materials Science.Complex dynamics of capillary imbibition of poly(ethylene oxide) melts in nanoporous alumina.Spontaneous imbibition dynamics of an n-alkane in nanopores: evidence of meniscus freezing and monolayer sticking.Surface-mediated liquid transport through molecularly thin liquid films on nanotubes.Diffusion of chain molecules and mixtures in carbon nanotubes: the effect of host lattice flexibility and theory of diffusion in the Knudsen regime.A novel algorithm to model the influence of host lattice flexibility in molecular dynamics simulations: loading dependence of self-diffusion in carbon nanotubes.Wetting dynamics of a water nanodrop on graphene.Dynamics and stability of two-potential flows in the porous media.Capillary climb dynamics in the limits of prevailing capillary and gravity force.Dynamics of capillary absorption of droplets by carbon nanotubes.Capillary rise in nanopores: molecular dynamics evidence for the Lucas-Washburn equation.Early regimes of water capillary flow in slit silica nanochannels.Capillary filling under electro-osmotic effects in the presence of electromagneto-hydrodynamic effects.Oil-Impregnated Hydrocarbon-Based Polymer FilmsCapillary rise of water in hydrophilic nanopores
P2860
Q27313338-768738BE-DED7-4F86-92DE-FFC2D343555DQ27444638-4D456BA2-ECCE-4374-8B59-D31E97853DEEQ30483939-3B55440C-8487-4FD5-8037-BA3ACB914AB4Q30667762-3A6D01BD-AE6C-4183-A440-FE2DAD8B89E0Q36056380-387F1A02-AE6E-437F-973B-007CF75A6052Q38135336-615A6D9F-B363-4B7E-B9FB-31FC991042FEQ39850976-A199F4F6-E71A-447C-A945-3B49A267A971Q43565348-A086AB18-49A5-447F-8564-04D786DB7E78Q45063765-2EB4CF84-4175-45FB-8220-644C1CEE2AEFQ46817348-567DCA28-984D-4EF3-BF7F-827D61E6FCC4Q47278095-F6A12186-42B3-4F3B-BD39-AC1E90CC0CEAQ47389122-C7432595-9F7D-49EE-B205-0D320D7B7F16Q47821131-82813A6F-CA00-47FE-ACF9-03C9DC72C4AAQ50293853-209B653F-3339-4DD3-9AB8-6F6CE85D6785Q50744288-D6A5B497-44E4-42EF-A0F9-0C11A14EC0A8Q50953748-875F992A-5D2C-4426-B563-099CA1C86983Q51211135-A531B206-D01B-48BA-83CD-DA2D5135A4F3Q51290147-81248A10-2F08-44EF-9B04-23494F032163Q51469357-CE0FA23E-D577-4D8C-9960-A7F0A2898CF8Q51551065-1A460C42-F338-490C-AC1C-DDD475381585Q51863653-078E9968-FCBA-43A9-91FF-DD1C5F78ED9CQ51903942-C779823D-2DBD-4DA2-8CD1-562254B2075EQ53235368-00A7EE36-26E8-4617-8068-57A27F7B288BQ53502871-C7D9D94A-A6A2-4C9C-A825-DC2C436375C8Q58802337-37177EC4-1CFB-420B-98AE-5B0CB55C88C9Q58818995-F4E5ED1D-96DE-40A9-B310-18C92A69C8CA
P2860
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh
2003年學術文章
@zh-hant
name
Rapid imbibition of fluids in carbon nanotubes.
@en
Rapid imbibition of fluids in carbon nanotubes.
@nl
type
label
Rapid imbibition of fluids in carbon nanotubes.
@en
Rapid imbibition of fluids in carbon nanotubes.
@nl
prefLabel
Rapid imbibition of fluids in carbon nanotubes.
@en
Rapid imbibition of fluids in carbon nanotubes.
@nl
P2860
P1476
Rapid imbibition of fluids in carbon nanotubes
@en
P2093
P2860
P304
P356
10.1103/PHYSREVLETT.90.214501
P407
P50
P577
2003-05-30T00:00:00Z