Add to ORKGa b s t r a c t The sorption–desorption hysteresis observed in many nanoporous solids, at vapor pressures low enough for the liquid (capillary) phase of the adsorbate to be absent, has long been vaguely attributed to some sort of ‘pore collapse’. However, the pore collapse has never been documented experimentally and explained mathematically. The present work takes an analytical approach to account for discrete molecular forces in the nanopore fluid and proposes two related mechanisms that can explain the hysteresis at low vapor pressure without assuming any pore collapse nor partial damage to the nanopore structure. The first mechanism, presented in Part I, consists of a series of snap-through instabilities during the filling or emptying o...
International audienceWe study the slow dynamics of water evaporation out of hydro-phobic cavities b...
Confined fluids undergo substantial changes in terms of their physicochemical properties when the po...
Sorption-induced deformation is ubiquitous in nanoporous media, but underlying mechanisms are not ye...
The sorption–desorption hysteresis observed in many nanoporous solids, at vapor pressures low enough...
Abstract: Motivated by the puzzle of sorption hysteresis in Portland cement concrete or cement paste...
The motivation of this study is to elucidate how the condensation and desorption pressures in water ...
Motivated by the puzzle of sorption hysteresis in Portland cement concrete or cement paste, we devel...
The liquid-vapor transition in cylindrical pores is studied as a function of pore size and hydrophil...
The motivation of this study is to elucidate how the condensation and desorption pressures in water ...
The ability to predict multiphase fluid transport in nanoporous rocks such as shales is critical for...
The ability to predict multiphase fluid transport in nanoporous rocks such as shales is critical for...
International audienceMany nanoporous solids (e.g. activated carbons, zeolites, MOFs) can exhibit no...
This paper presents a comprehensive computer simulation study of the microscopic mechanisms of adsor...
This paper presents a comprehensive computer simulation study of the microscopic mechanisms of adsor...
Water plays a key role in biological membrane transport. In ion channels and water-conducting pores ...
International audienceWe study the slow dynamics of water evaporation out of hydro-phobic cavities b...
Confined fluids undergo substantial changes in terms of their physicochemical properties when the po...
Sorption-induced deformation is ubiquitous in nanoporous media, but underlying mechanisms are not ye...
The sorption–desorption hysteresis observed in many nanoporous solids, at vapor pressures low enough...
Abstract: Motivated by the puzzle of sorption hysteresis in Portland cement concrete or cement paste...
The motivation of this study is to elucidate how the condensation and desorption pressures in water ...
Motivated by the puzzle of sorption hysteresis in Portland cement concrete or cement paste, we devel...
The liquid-vapor transition in cylindrical pores is studied as a function of pore size and hydrophil...
The motivation of this study is to elucidate how the condensation and desorption pressures in water ...
The ability to predict multiphase fluid transport in nanoporous rocks such as shales is critical for...
The ability to predict multiphase fluid transport in nanoporous rocks such as shales is critical for...
International audienceMany nanoporous solids (e.g. activated carbons, zeolites, MOFs) can exhibit no...
This paper presents a comprehensive computer simulation study of the microscopic mechanisms of adsor...
This paper presents a comprehensive computer simulation study of the microscopic mechanisms of adsor...
Water plays a key role in biological membrane transport. In ion channels and water-conducting pores ...
International audienceWe study the slow dynamics of water evaporation out of hydro-phobic cavities b...
Confined fluids undergo substantial changes in terms of their physicochemical properties when the po...
Sorption-induced deformation is ubiquitous in nanoporous media, but underlying mechanisms are not ye...