John Fortner
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About
Research
Publications
2024
Reductive Dissolution of NCM Cathode through Anaerobic Respiration by Shewanella putrefaciens
Kim S, Lee K, Kim K, Lee S, Fortner J, An H, Son Y, Hwang H, Han Y, Myung Y, Jung H. Reductive Dissolution of NCM Cathode through Anaerobic Respiration by Shewanella putrefaciens. Environmental Science And Technology 2024, 58: 18345-18355. PMID: 39352755, DOI: 10.1021/acs.est.4c05486.Peer-Reviewed Original ResearchLithium-ion batteriesCathode materialsConsumption of lithium-ion batteriesShewanella putrefaciens</i>Dissolution of LiReduction of NiAnaerobic respirationNCM cathodesNCM622Room temperatureAnaerobic conditionsCathodeMicrobial respirationNeutral pHPristineCOShewanella putrefaciensAnaerobic environmentLiNiRespirationReductive dissolutionMultiplexable and Scalable Aqueous Synthesis Platform for Oleate‐Based, Bilayer‐Coated Gold Nanoparticles (Small 25/2024)
Backhaus A, Albrecht J, Alzhanova G, Long A, Arnold W, Lee J, Tse H, Su T, Cruz‐Gomez S, Lee S, Menges F, Parent L, Ratjen L, Burtness B, Fortner J, Zimmerman J. Multiplexable and Scalable Aqueous Synthesis Platform for Oleate‐Based, Bilayer‐Coated Gold Nanoparticles (Small 25/2024). Small 2024, 20 DOI: 10.1002/smll.202470191.Peer-Reviewed Original ResearchSimple, Green Pathway to Precipitate Perfluorooctanoate (PFOA) via Transformation to an Insoluble Ester
Maisto S, Hong D, Griffith A, Fortner J. Simple, Green Pathway to Precipitate Perfluorooctanoate (PFOA) via Transformation to an Insoluble Ester. Environmental Science & Technology Letters 2024, 11: 364-369. DOI: 10.1021/acs.estlett.4c00144.Peer-Reviewed Original ResearchSurface hydrophobicity of boron nitride promotes PFOA photocatalytic degradation
Wang B, Chen Y, Samba J, Heck K, Huang X, Lee J, Metz J, Bhati M, Fortner J, Li Q, Westerhoff P, Alvarez P, Senftle T, Wong M. Surface hydrophobicity of boron nitride promotes PFOA photocatalytic degradation. Chemical Engineering Journal 2024, 483: 149134. DOI: 10.1016/j.cej.2024.149134.Peer-Reviewed Original ResearchDensity functional theory calculationsRate law analysisFunctional theory calculationsSurface hydroxyl groupsDegradation ratePhotocatalytic degradationHole reactionsHeterogeneous photocatalysisAnatase TiO2Catalyst surfaceReaction conditionsTheory calculationsSurface hydroxylsContact angle measurementsHydroxyl groupsTiO2Light illuminationExposed surface areaAcidic pH conditionsBoron nitrideSurface hydrophobicitySurface coverageSurface areaElectrostatic attractionNeutral pHMultiplexable and Scalable Aqueous Synthesis Platform for Oleate‐Based, Bilayer‐Coated Gold Nanoparticles
Backhaus A, Albrecht J, Alzhanova G, Long A, Arnold W, Lee J, Tse H, Su T, Cruz‐Gomez S, Lee S, Menges F, Parent L, Ratjen L, Burtness B, Fortner J, Zimmerman J. Multiplexable and Scalable Aqueous Synthesis Platform for Oleate‐Based, Bilayer‐Coated Gold Nanoparticles. Small 2024, 20: e2309919. PMID: 38377304, DOI: 10.1002/smll.202309919.Peer-Reviewed Original ResearchGold nanoparticlesReaction scale-upLigand exchangeSpectroscopic investigationsSelf-assemblyGram levelReaction efficiencyCapping agentSodium oleateSynthesis platformPreparation procedureGold-based nanomaterialsPhysiological pHReactionNanoparticlesSynthesis limitationsSynthesisGrowth processControl resultsParticle concentrationMultiplexingSize precisionConventional thermocyclerScale-upGold
2023
Harnessing the potential of in-situ, electrically generated microbubbles via nickel foam for enhanced, low energy membrane fouling control
Yun E, Lee J, Lee S, Hong S, Fortner J. Harnessing the potential of in-situ, electrically generated microbubbles via nickel foam for enhanced, low energy membrane fouling control. Water Research 2023, 249: 120886. PMID: 38103442, DOI: 10.1016/j.watres.2023.120886.Peer-Reviewed Original ResearchConceptsNickel foamPressure-driven membrane processesComplete flux recoveryHydrogen gas fluxPressure-driven processesWater treatment technologiesPorous nickel foamMinimal energy inputMetal foamFlux recoveryModel foulantsChallenge waterMembrane processesBubble sizeTreatment technologiesCleaning processMagnitude more energyEnergy inputFaradic efficiencyCleaning strategiesAntifouling strategiesFoamFoulantsFoulingSystem characterization
News
News
- June 16, 2023Source: ACS ES&T Engineering
Nanobubble Reactivity: Evaluating Hydroxyl Radical Generation (or Lack Thereof) Under Ambient Conditions
- December 16, 2019
Threat of Toxic Chemicals Draws Scores of Experts to Yale School of Public Health
- December 02, 2019Source: Yale Daily News
High exposure to harmful chemical impacts thyroid hormones in pregnant mothers