Trends, risks and opportunities in environmental nanotechnology
Huang X, Auffan M, Eckelman M, Elimelech M, Kim J, Rose J, Zuo K, Li Q, Alvarez P. Trends, risks and opportunities in environmental nanotechnology. Nature Reviews Earth & Environment 2024, 5: 572-587. DOI: 10.1038/s43017-024-00567-5.Peer-Reviewed Original ResearchEngineered nanomaterialsRelease of ENMsRisks of engineered nanomaterialsENM concentrationsImpact of engineered nanomaterialsPredicted no-effect concentrationWater treatmentHealth risksEnvironmental applicationsNo-effect concentrationPotential environmental applicationsPotential dischargeEnvironmental health risksLife cycle analysisSynthesized materialsReduced toxicityPollution remediationSewage effluentIncidental releaseEnvironmental nanotechnologyReduced riskEnvironmental impactRiskHealth impactsEnvironmental benefitsIntensifying electrified flow-through water treatment technologies via local environment modification
Huo Z, Wang X, Huang X, Elimelech M. Intensifying electrified flow-through water treatment technologies via local environment modification. Frontiers Of Environmental Science & Engineering 2024, 18: 69. DOI: 10.1007/s11783-024-1829-y.Peer-Reviewed Original ResearchFlow-through electrodeFlow-through technologyEnhanced local electric fieldEfficient contaminant removalWater treatment applicationsComplex water matricesLocal electric fieldInduced spatial confinementNear-complete removalReaction kineticsTreatment technologiesMass transportContaminant removalWater treatmentWater matricesPersistent contaminantsGeometry adjustmentModification approachReaction rateElectric fieldStructural optimizationTreatment applicationsElectrodeEnvironment modificationSpatial confinement