Dual-substrate synergistic catalysis for highly efficient water purification
Shi L, Huang G, Wang Z, Duan Y, Zhang Y, Chen J, Li W, Yu H, Elimelech M. Dual-substrate synergistic catalysis for highly efficient water purification. Nature Water 2025, 3: 345-353. DOI: 10.1038/s44221-025-00400-3.Peer-Reviewed Original ResearchEfficient water purificationElectron transferWater purificationTraditional advanced oxidation processesInterfacial electron transferSynergistic catalysis strategyElectron transfer reactionsEngineering of catalystsHeterogeneous catalytic processesNon-radical oxidationAdvanced oxidation processesOxidation of pollutantsSynergistic catalysis systemCatalysis strategySynergistic catalysisCatalysis systemSubstrate activation processCatalytic processTransfer reactionsCatalystByproduct formationOxidation processSynergistic effectEfficient activationTheoretical analysisCopper Single-Atom Catalyst on Nanoconfined Ceramic Membranes for Fenton-Like Removal of Organic Contaminants
Hedtke T, Zhang Y, Beebe M, Rigby K, Meese A, Elimelech M, Kim J. Copper Single-Atom Catalyst on Nanoconfined Ceramic Membranes for Fenton-Like Removal of Organic Contaminants. ACS ES&T Engineering 2025 DOI: 10.1021/acsestengg.4c00843.Peer-Reviewed Original ResearchSingle-atom catalystsAdvanced oxidation processesFenton-like advanced oxidation processesEnhanced catalytic performanceStable catalytic activityImproved mass transfer efficiencyRemoval of organic contaminantsAnodic aluminum oxide membranesReduced membrane pore sizeCopper catalystCatalytic performanceNanoscale catalystsAluminum oxide membranesMembrane pore sizeMass transfer efficiencyCatalytic activityCatalytic membraneCatalystBenzoic acidOperational durabilityOxide membranesCeramic membranesNanoscale spaceNanometer-sized poresOxidation process
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