Heat diffusion during thin-film composite membrane formation
Deshmukh A, Lienhard J, Elimelech M. Heat diffusion during thin-film composite membrane formation. Journal Of Membrane Science 2024, 696: 122493. DOI: 10.1016/j.memsci.2024.122493.Peer-Reviewed Original ResearchThin-film compositeInterfacial temperature riseInterfacial polymerizationInterfacial temperatureComposite membrane formationProperties of solventsHigh separation performanceThin-film composite membranesTemperature riseTransient heat conduction modelThermal propertiesRobust mechanical supportPolymeric supportCombination of analytical solutionsSelective layerTransient heat conductionThermal effusivitiesSeparation performanceChemical structureReaction interfaceHeat conduction modelInterlayer materialReverse osmosisMetal interlayerSupport layerRoll-to-roll fabrication of large-area metal–organic framework-based membranes for high-performance aqueous separations
Ji Y, Gu B, Huo H, Xie S, Peng H, Zhang W, Yin M, Xiong B, Lu H, Villalobos L, Zhao Q, Gao C, Elimelech M, An Q. Roll-to-roll fabrication of large-area metal–organic framework-based membranes for high-performance aqueous separations. Nature Water 2024, 2: 183-192. DOI: 10.1038/s44221-023-00184-4.Peer-Reviewed Original ResearchMetal-organic frameworksRoll-to-roll fabricationCrystallization strategyMetal-ligand interactionsMOF-based membranesEfficient water purificationSolute-solute separationPurification of pharmaceuticalsSolute-solute selectivityHigh water permeanceSpiral wound membrane modulesDye desalinationMild conditionsHybrid membranesAqueous separationsSeparation performanceWater permeanceRemarkable stabilityMembrane moduleWater purificationScalable manufacturingUltra-thinInterconnection structureCrystalPolydopamine nanoparticles