Add to ORKGInternational audienceNanoporous media play a central role in many application fields (buildings, fuel cells, petroleum engineering, nuclear waste storage). At the nanometer scale, two-phase flows involve processes possibly modified when compared to macro (or even micrometer) scale: contact line pinning, wetting issues, strong negative pressure in the liquid and cavitation, gas dissolution and compression.We use nanofabrication technologies to assess simple situations such as evaporation, spontaneous imbibition, or drainage, in well-controlled artificial nanochannels. In particular, extremely high pressure differences (several tens bar) and surface/volume ratios lead to behaviors specific to the nanoscale. For imbibition, we observe a modif...
Understanding the effect of liquid viscosity in nanoconfinement is of paramount importance from both...
Drying and evaporation from nanoscale conduits are two ubiquitous phenomena found in nature. As thes...
International audienceControl and understanding of flows inside fabricated nanochannels is rich in p...
International audienceNanoporous media play a central role in many application fields (buildings, fu...
Cavitation, known as the formation of vapor bubbles when liquids are under tension, is of great inte...
Thesis (M.Sc.Eng.) PLEASE NOTE: Boston University Libraries did not receive an Authorization To Mana...
Understanding the underlying physics of fluid behavior at nanoconfined geometries is essential to ad...
Liquid imbibition, the capillary-pressure-driven flow of a liquid into a gas, provides a mechanism f...
Evaporation at the nanoscale is critical to hydrocarbon production from nanoporous shale, a process ...
Evaporation at the nanoscale is critical to hydrocarbon production from nanoporous shale, a process ...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Understanding the effect of liquid viscosity in nanoconfinement is of paramount importance from both...
Understanding the effect of liquid viscosity in nanoconfinement is of paramount importance from both...
Drying and evaporation from nanoscale conduits are two ubiquitous phenomena found in nature. As thes...
International audienceControl and understanding of flows inside fabricated nanochannels is rich in p...
International audienceNanoporous media play a central role in many application fields (buildings, fu...
Cavitation, known as the formation of vapor bubbles when liquids are under tension, is of great inte...
Thesis (M.Sc.Eng.) PLEASE NOTE: Boston University Libraries did not receive an Authorization To Mana...
Understanding the underlying physics of fluid behavior at nanoconfined geometries is essential to ad...
Liquid imbibition, the capillary-pressure-driven flow of a liquid into a gas, provides a mechanism f...
Evaporation at the nanoscale is critical to hydrocarbon production from nanoporous shale, a process ...
Evaporation at the nanoscale is critical to hydrocarbon production from nanoporous shale, a process ...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Evaporation at the nanoscale is critical to many natural and synthetic systems including rapidly eme...
Understanding the effect of liquid viscosity in nanoconfinement is of paramount importance from both...
Understanding the effect of liquid viscosity in nanoconfinement is of paramount importance from both...
Drying and evaporation from nanoscale conduits are two ubiquitous phenomena found in nature. As thes...
International audienceControl and understanding of flows inside fabricated nanochannels is rich in p...