2025
Approaching infinite selectivity in membrane-based aqueous lithium extraction via solid-state ion transport
Patel S, Iddya A, Pan W, Qian J, Elimelech M. Approaching infinite selectivity in membrane-based aqueous lithium extraction via solid-state ion transport. Science Advances 2025, 11: eadq9823. PMID: 40020050, PMCID: PMC11870030, DOI: 10.1126/sciadv.adq9823.Peer-Reviewed Original ResearchSolid-state electrolytesLithium extractionHopping of lithium ionsPart-per-billion detection limitsIon-ion selectivityLimitations of mass spectrometryIon transportNext-generation membranesLithium-ionIon migrationPart-per-billionExtract lithiumIon-ionLithium supplyMass spectrometryBattery technologySelectivity valuesMembrane transport propertiesLithiumMembrane materialsNanoporous membranesTransport propertiesIonsElectrolyteSpectrometry
2024
Designing membranes with specific binding sites for selective ion separations
Violet C, Ball A, Heiranian M, Villalobos L, Zhang J, Uralcan B, Kulik H, Haji-Akbari A, Elimelech M. Designing membranes with specific binding sites for selective ion separations. Nature Water 2024, 2: 706-718. DOI: 10.1038/s44221-024-00279-6.Peer-Reviewed Original ResearchMembrane nanochannelsFunctional groupsCovalent organic frameworksMetal-organic frameworksSelective ion separationIon binding energiesMembrane material designSelective ion transportIon binding affinityEnergy storage technologiesOrganic frameworksIon separationSynthetic methodNanostructured materialsBinding sitesBinding energyMaterial designDesign membranesDrug discoveryAngstrom scaleChemical interactionIonsChemical featuresNanochannelsIon transport
This site is protected by hCaptcha and its Privacy Policy and Terms of Service apply