2020
Doing nano-enabled water treatment right: sustainability considerations from design and research through development and implementation
Falinski M, Turley R, Kidd J, Lounsbury A, Lanzarini-Lopes M, Backhaus A, Rudel H, Lane M, Fausey C, Barrios A, Loyo-Rosales J, Perreault F, Walker W, Stadler L, Elimelech M, Gardea-Torresdey J, Westerhoff P, Zimmerman J. Doing nano-enabled water treatment right: sustainability considerations from design and research through development and implementation. Environmental Science Nano 2020, 7: 3255-3278. DOI: 10.1039/d0en00584c.Peer-Reviewed Original ResearchConventional water treatment systemsWater treatment systemsUnique physicochemical propertiesBroad electromagnetic spectrumFundamental nanoscienceTreatment systemWater treatmentIndustrial wastewater treatmentWater treatment technologiesWater treatment devicesConventional water treatmentPerformance enhancementWastewater treatmentElectromagnetic spectrumTreatment technologiesIndustrial wastewaterPhysicochemical propertiesTreatment devicesSustainability considerationsDevicesWorld lack accessNanoscienceTechnology developmentContaminants of concernNano
2008
Toward Green Nano
Eckelman M, Zimmerman J, Anastas P. Toward Green Nano. Journal Of Industrial Ecology 2008, 12: 316-328. DOI: 10.1111/j.1530-9290.2008.00043.x.Peer-Reviewed Original ResearchGreen nanoE-factorSynthesis of nanomaterialsGreener synthesis routesGreen chemistry metricsGold nanoparticlesNanomaterial productionMetal nanoparticlesSpecific nanomaterialsCarbon nanotubesGreen chemistryTraditional synthesisSynthesis routeNanoNanomaterialsPotential applicationsDifferent production methodsNanotechnologyNanoparticlesProduction methodsResearch interestEnvironmental implicationsNew classSynthesisOrders of magnitude