2025
Dialysis opens a new pathway for high-salinity organic wastewater treatment
Chen Y, Wang L, del Cerro M, Wang L, Zhang X, Elimelech M, Wang Z. Dialysis opens a new pathway for high-salinity organic wastewater treatment. Nature Water 2025, 3: 49-58. DOI: 10.1038/s44221-024-00368-6.Peer-Reviewed Original ResearchHigh-salinity organic wastewaterOrganic wastewaterConventional wastewater treatment processesOrganic wastewater treatmentExcellent fouling resistanceWastewater treatment processesWastewater treatment schemesApplication of hydraulic pressurePassage of saltCountercurrent flow modeBench-scale experimentsFouling resistanceMembrane foulingWastewater treatmentWastewater streamsFlow modeHydraulic pressureTreatment processWastewaterOrganic substancesWater transportFoulingUltrafiltrationFractional saltingInnovative solutions
2024
Ultrastable ceramic-based metal–organic framework membranes with missing linkers for robust desalination
Dong Y, Lyu Q, Lin L, Violet C, Lin B, Han Y, Tang C, Yu H, Elimelech M. Ultrastable ceramic-based metal–organic framework membranes with missing linkers for robust desalination. Nature Water 2024, 2: 464-474. DOI: 10.1038/s44221-024-00218-5.Peer-Reviewed Original ResearchHigh-performance desalination membranesPolymeric membranesWater treatment applicationsMetal–organic framework membranesMissing-linker defectsUiO-66 membraneDesalination membranesLow energy barrierMolecular simulation resultsHarsh chemical conditionsMissing linkersUiO-66Water clustersIndustrial wastewater treatmentEnergy barrierIncreased water fluxDesalination performanceDesalination applicationsTreatment applicationsAlkaline conditionsNanoporous membranesInsufficient stabilityWastewater treatmentPore sizeSimulation results
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