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 benefitsWhat is the environmental impact of a blood transfusion? A life cycle assessment of transfusion services across England
Hibbs S, Thomas S, Agarwal N, Andrews C, Eskander S, Abdalla A, Staves J, Eckelman M, Murphy M. What is the environmental impact of a blood transfusion? A life cycle assessment of transfusion services across England. Transfusion 2024, 64: 638-645. PMID: 38506497, DOI: 10.1111/trf.17786.Peer-Reviewed Original ResearchLife cycle assessmentGreenhouse gasesEstimation of carbon footprintCycle assessmentMethod of disposalEnvironmental impactTotal emissionsCarbon footprintDisposalService fleetMitigationEnergy efficiency of refrigerationEmissionEnergy efficiencyIncinerationEq/yearSource of electricityElectric vehiclesPower usageDisposable materialsGreenhouseTransportElectric power usageFleetManufacturing dataSustainability Tools in Cultural Heritage: Life Cycle Assessment Examining Crates for Heritage Objects
Nunberg S, Sanchez S, Eckelman M. Sustainability Tools in Cultural Heritage: Life Cycle Assessment Examining Crates for Heritage Objects. Journal Of The American Institute For Conservation 2024, ahead-of-print: 1-13. DOI: 10.1080/01971360.2023.2240996.Peer-Reviewed Original ResearchLife cycle assessmentSustainability toolsCultural heritageSource of greenhouse gas emissionsCultural heritage professionalsGreenhouse gas emissionsReduced impactSingle-tripCycle assessmentSustainable materialsHeritage professionalsHeritage objectsEnvironmental profileMaterial productionEnvironmental impactEnvironmental considerationsWooden cratesHeritageGas emissionsLife cycleRound tripDisassembled componentsTransportSustainabilityMaterial categoriesEnvironmental Impact of a Direct Laryngoscopy: Opportunities for Pollution Mitigation
Filley G, Kayastha D, Hayes W, Mehra S, Sherman J, Eckelman M. Environmental Impact of a Direct Laryngoscopy: Opportunities for Pollution Mitigation. The Laryngoscope 2024, 134: 3206-3214. PMID: 38379176, DOI: 10.1002/lary.31341.Peer-Reviewed Original ResearchGlobal warming potentialLife cycle assessmentEnvironmental impact categoriesImpact categoriesEnvironmental impactWater consumptionAlternative scenariosCycle assessmentPollution mitigationWarming potentialHuman healthDecontamination standardsNon-sterileYale-New Haven HospitalEnvironmental benefitsDecontaminationTertiary medical centerWaterSteam sterilizationCenters for Disease Control (CDCPollutionHigh-level disinfectionSurgical proceduresDirect laryngoscopySurgical towels