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Direct Observation of Homogeneous Cavitation in Nanopores

Victor Doebele, Aristée Benoit-Gonin, Fabien Souris, L. Cagnon, Panayotis Spathis, P. E. Wolf, A. Grosman, Marine Bossert, I. Trimaille, E. Rolley

2020Physical Review Letters15 citationsDOIOpen Access PDF

Abstract

We report on the evaporation of hexane from porous alumina and silicon membranes. These membranes contain billions of independent nanopores tailored to an ink-bottle shape, where a cavity several tens of nanometers in diameter is separated from the bulk vapor by a constriction. For alumina membranes with narrow enough constrictions, we demonstrate that cavity evaporation proceeds by cavitation. Measurements of the pressure dependence of the cavitation rate follow the predictions of the bulk, homogeneous, classical nucleation theory, definitively establishing the relevance of homogeneous cavitation as an evaporation mechanism in mesoporous materials. Our results imply that porous alumina membranes are a promising new system to study liquids in a deeply metastable state.

Topics & Concepts

CavitationMaterials scienceMembraneNanoporeNucleationEvaporationNanometreMetastabilityChemical physicsHomogeneousPorosityMesoporous materialPorous glassPorous mediumPorous siliconNanotechnologyChemical engineeringComposite materialThermodynamicsChemistryOrganic chemistryCatalysisEngineeringPhysicsBiochemistryAnodic Oxide Films and NanostructuresNanopore and Nanochannel Transport StudiesAcoustic Wave Resonator Technologies
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