In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the Laplace pressure and the gas overpressure, provided the contact line of the bubble is pinned. In this article, we analyze how the disjoining pressure originating from the van der Waals interactions of the liquid and the gas with the surface affects the properties of the surface nanobubbles. From a functional minimization of the Gibbs free energy in the sharp-interface approximation, we find the bubble shape that takes into account the attracting van der Waals potential and gas compressibility effects. Although the bubble shape slightly deviates from the classical one (defined by the Young contact angle), it preserves a nearly spherical-cap s...
In this thesis, we have studied water in contact with a hydrophobic surface. The thesis covers three...
The experimental evidence for the existence of nanobubbles is summarized. The paradox represented by...
In a recent study [ S. Das, J. H. Snoeijer and D. Lohse Phys. Rev. E 82 056310 (2010)], we provided ...
In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the...
In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the...
In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the...
Surface nanobubbles are experimentally known to survive for days at hydrophobic surfaces immersed in...
Interfaces between aqueous solutions and hydrophobic solid surfaces are important in various areas o...
Recent experiments have convincingly demonstrated the existence of surface nanobubbles on submerged ...
Surface nanobubbles emerging at solid-liquid interfaces of submerged hydrophobic surfaces show extre...
Surface nanobubbles are gaseous domains found at immersed substrates, whose remarkable persistence i...
The formation of gas bubbles presents a frequent challenge to microfluidic operations, for which flu...
In this Proceeding we review and summarize recent findings of the Twente Physics of Fluids group on ...
Surface and bulk nanobubbles are two types of nanoscopic gaseous domain that have recently been disc...
Using molecular dynamics simulations, the effects of gas concentration and species on the coalescenc...
In this thesis, we have studied water in contact with a hydrophobic surface. The thesis covers three...
The experimental evidence for the existence of nanobubbles is summarized. The paradox represented by...
In a recent study [ S. Das, J. H. Snoeijer and D. Lohse Phys. Rev. E 82 056310 (2010)], we provided ...
In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the...
In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the...
In gas-oversaturated solutions, stable surface nanobubbles can exist thanks to a balance between the...
Surface nanobubbles are experimentally known to survive for days at hydrophobic surfaces immersed in...
Interfaces between aqueous solutions and hydrophobic solid surfaces are important in various areas o...
Recent experiments have convincingly demonstrated the existence of surface nanobubbles on submerged ...
Surface nanobubbles emerging at solid-liquid interfaces of submerged hydrophobic surfaces show extre...
Surface nanobubbles are gaseous domains found at immersed substrates, whose remarkable persistence i...
The formation of gas bubbles presents a frequent challenge to microfluidic operations, for which flu...
In this Proceeding we review and summarize recent findings of the Twente Physics of Fluids group on ...
Surface and bulk nanobubbles are two types of nanoscopic gaseous domain that have recently been disc...
Using molecular dynamics simulations, the effects of gas concentration and species on the coalescenc...
In this thesis, we have studied water in contact with a hydrophobic surface. The thesis covers three...
The experimental evidence for the existence of nanobubbles is summarized. The paradox represented by...
In a recent study [ S. Das, J. H. Snoeijer and D. Lohse Phys. Rev. E 82 056310 (2010)], we provided ...