2021
Utilizing the broad electromagnetic spectrum and unique nanoscale properties for chemical-free water treatment
Westerhoff P, Alvarez PJJ, Kim J, Li Q, Alabastri A, Halas NJ, Villagran D, Zimmerman J, Wong MS. Utilizing the broad electromagnetic spectrum and unique nanoscale properties for chemical-free water treatment. Current Opinion In Chemical Engineering 2021, 33: 100709. PMID: 34804780, PMCID: PMC8597955, DOI: 10.1016/j.coche.2021.100709.Peer-Reviewed Original ResearchUnique nanoscale propertiesWater treatmentBroad electromagnetic spectrumSolar-based technologiesNanomaterial designElectromagnetic spectrumNanoscale propertiesWater treatment technologiesNanomaterialsCentury-old technologyExternal energy sourceTreatment technologiesMaterial propertiesAquatic organismsDecentralized communityTremendous improvementGreat attentionEnergy sourcesTechnologyIndustrial processesWater processesSpectraPropertiesClean waterSynthesis
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