Mesoporous films have been shown to exhibit striking behaviors in capillary-driven infiltration experiments. The process has been shown to follow classical Lucas–Washburn dynamics, but the effective pore radius has been calculated from hydrodynamic resistance considerations to be orders of magnitude lower than measured pore dimensions. In addition, the infiltration rate has been observed to decrease with increasing pore diameter, in contrast to the expected trend for capillary-like pores. Here, we present a simple model accounting for the mechanism behind these anomalous effects. We found the infiltration rate to be inversely proportional to the cubed ratio of pore to neck size. This physical scaling correctly modeled both the magnitude of ...
Wetting films can develop in the corners of angular pores under strong wetting conditions. Modeling ...
International audienceWe investigate the filling and emptying of extreme ink-bottle porous media—mic...
We report on the capillary rise of water in three dimensional networks of hydrophilic silica pores w...
International audiencea Capillary phenomena governing the mass-transport (capillary filling, condens...
The fluid-front dynamics resulting from the coexisting infiltration and evaporation phenomena in nan...
Understanding the capillary filling behaviors in nanopores is crucial for many science and engineeri...
Liquid invasion into a porous medium is a phenomenon of great importance in both nature and technolo...
Spontaneous imbibition in porous media plays a crucial role in many engineering applications such as...
Water plays a key role in biological membrane transport. In ion channels and water-conducting pores ...
International audienceFluids in large and small pores display different behaviors with a crossover d...
International audienceMRI visualization down to nanometric liquid films in model porous media with p...
Abstract The behavior of liquids in confined geometries (pores, fractures) typically differs, due to...
Fil: Elizalde, Emanuel. Universidad Nacional del Litoral. Facultad de Ingeniería Química; Argentina....
A beautiful array of patterns emerges when one fluid displaces another in porous media, a physical s...
Achieving active control on small amounts of liquids represents a substantial challenge in both scie...
Wetting films can develop in the corners of angular pores under strong wetting conditions. Modeling ...
International audienceWe investigate the filling and emptying of extreme ink-bottle porous media—mic...
We report on the capillary rise of water in three dimensional networks of hydrophilic silica pores w...
International audiencea Capillary phenomena governing the mass-transport (capillary filling, condens...
The fluid-front dynamics resulting from the coexisting infiltration and evaporation phenomena in nan...
Understanding the capillary filling behaviors in nanopores is crucial for many science and engineeri...
Liquid invasion into a porous medium is a phenomenon of great importance in both nature and technolo...
Spontaneous imbibition in porous media plays a crucial role in many engineering applications such as...
Water plays a key role in biological membrane transport. In ion channels and water-conducting pores ...
International audienceFluids in large and small pores display different behaviors with a crossover d...
International audienceMRI visualization down to nanometric liquid films in model porous media with p...
Abstract The behavior of liquids in confined geometries (pores, fractures) typically differs, due to...
Fil: Elizalde, Emanuel. Universidad Nacional del Litoral. Facultad de Ingeniería Química; Argentina....
A beautiful array of patterns emerges when one fluid displaces another in porous media, a physical s...
Achieving active control on small amounts of liquids represents a substantial challenge in both scie...
Wetting films can develop in the corners of angular pores under strong wetting conditions. Modeling ...
International audienceWe investigate the filling and emptying of extreme ink-bottle porous media—mic...
We report on the capillary rise of water in three dimensional networks of hydrophilic silica pores w...