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 dissolutionSurface 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 pH