2025
Remediation of groundwater contaminated with perfluoroalkyl acids and chlorinated ethenes using a microbial reductive dechlorination and sorptive material treatment train
Yan P, Dong S, Woodcock M, Fortner J, Pennell K, Cápiro N. Remediation of groundwater contaminated with perfluoroalkyl acids and chlorinated ethenes using a microbial reductive dechlorination and sorptive material treatment train. Water Research 2025, 285: 124009. PMID: 40561626, DOI: 10.1016/j.watres.2025.124009.Peer-Reviewed Original ResearchChlorinated ethenesRemediation of groundwaterPerfluoroalkyl acidsTreatment trainIn situ remediation of groundwaterLong-chain perfluoroalkyl acidsIn situ remediationMicrobial reductive dechlorinationEnhanced adsorption capacityPowdered activated carbonContaminated sitesCo-contaminantsGroundwater plumeCompetitive sorptionReductive dechlorinationAdsorption capacityContaminant plumeRemediation strategiesRemediation challengesContaminant typeSorption barrierSorptive systemGroundwaterS-PACSorption
2020
Magnetically recoverable carbon-coated iron carbide with arsenic adsorptive removal properties
Powell C, Guo S, Godret-Miertschin L, Ventura K, Lounsbury A, Clark C, Villagran D, Zimmerman J, Atkinson A, Westerhoff P, Wong M. Magnetically recoverable carbon-coated iron carbide with arsenic adsorptive removal properties. Discover Applied Sciences 2020, 2: 1690. DOI: 10.1007/s42452-020-03491-7.Peer-Reviewed Original ResearchIron carbideAdsorptive removal propertiesSimulated drinking waterContinuous flow conditionsMagnetic recoverabilityGraphic abstractAMagnetic separabilityChemical stabilityAdsorptive propertiesAdsorption capacityMagnetic removalWater contaminantsGraphitic shellsRemoval propertiesArsenic removalFe3O4Material integrityMagnetic saturationMagnetic particlesCarbideMagnetic characteristicsDrinking waterContaminantsWaterExperimental resultsTunable Molybdenum Disulfide-Enabled Fiber Mats for High-Efficiency Removal of Mercury from Water
Fausey CL, Zucker I, Lee DE, Shaulsky E, Zimmerman J, Elimelech M. Tunable Molybdenum Disulfide-Enabled Fiber Mats for High-Efficiency Removal of Mercury from Water. ACS Applied Materials & Interfaces 2020, 12: 18446-18456. PMID: 32227872, DOI: 10.1021/acsami.9b22823.Peer-Reviewed Original ResearchMercury removalOptimal fabrication techniqueNovel environmental applicationsAqueous mercury removalTimes higher adsorptionPristine carbon fibersNanofibrous matsMercury adsorption capacityMercury removal mechanismHigh-efficiency removalReduction-oxidation reactionsFabrication techniquesHigher mercury removalSolvothermal methodCarbon nanofibersMolybdenum disulfideSelective sensingSitu MoSynthesis methodEnvironmental applicationsPhysicochemical adsorptionAdsorption capacityWater decontaminationHigh adsorptionDifferent morphologies
2016
A high-throughput nanofibers mat-based micro-solid phase extraction for the determination of cationic dyes in wastewater
Qi F, Qian L, Liu J, Li X, Lu L, Xu Q. A high-throughput nanofibers mat-based micro-solid phase extraction for the determination of cationic dyes in wastewater. Journal Of Chromatography A 2016, 1460: 24-32. PMID: 27435684, DOI: 10.1016/j.chroma.2016.07.020.Peer-Reviewed Original ResearchConceptsLimit of detectionCationic dyesNanofiber matsMicro-solid phase extractionDyeing industry wastewaterHigh-throughput sample preparation techniqueShorter extraction timeDischarge standardsIndustry wastewaterAdsorption capacityWater pollutantsPlate formatHigh-throughput sample preparation procedureBest extraction efficiencyWastewaterSample preparation techniquesExtraction timeMicro-SPEExtraction efficiencyDyePreparation techniquesPolypyrroleTextile industryPreparation procedureOptimal conditions
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