2022
Applying green chemistry to raw material selection and product formulation at The Estée Lauder Companies
Eckelman M, Moroney M, Zimmerman J, Anastas P, Thompson E, Scott P, McKeever-Alfieri M, Cavanaugh P, Daher G. Applying green chemistry to raw material selection and product formulation at The Estée Lauder Companies. Green Chemistry 2022, 24: 2397-2408. DOI: 10.1039/d1gc03081g.Peer-Reviewed Original ResearchPersonal care productsGreen chemistryCare productsGreen chemistry principlesChemistry principlesChemistryProduct formulationSynthetic ingredientsChemistry performanceHuman healthProduct formulatorsGreenerChemical component dataRaw materialsFormulatorsCosmetic ingredientsProductsIngredientsHazard-based approachRaw material selectionMaterial selectionMaterials
2020
Exploring the Mechanisms of Selectivity for Environmentally Significant Oxo-Anion Removal during Water Treatment: A Review of Common Competing Oxo-Anions and Tools for Quantifying Selective Adsorption
Pincus L, Rudel H, Petrović P, Gupta S, Westerhoff P, Muhich C, Zimmerman J. Exploring the Mechanisms of Selectivity for Environmentally Significant Oxo-Anion Removal during Water Treatment: A Review of Common Competing Oxo-Anions and Tools for Quantifying Selective Adsorption. Environmental Science And Technology 2020, 54: 9769-9790. PMID: 32515947, PMCID: PMC10514893, DOI: 10.1021/acs.est.0c01666.Peer-Reviewed Original ResearchConceptsSelective adsorbentDensity functional theorySelective adsorptionSelectivity of materialsOxo anionsNovel adsorbentCompetitive adsorptionElectrostatic interactionsSurface complexationMechanism of selectivityAdsorptive competitionSteric hindranceAdsorbentFunctional theoryAdsorptionSorption sitesWater treatmentSelectivityPollutant removal potentialRemoval potentialComplexationMechanistic approachMaterialsBase hardnessHindrance
2016
A Strategy for Material Supply Chain Sustainability: Enabling a Circular Economy in the Electronics Industry through Green Engineering
O’Connor M, Zimmerman J, Anastas P, Plata D. A Strategy for Material Supply Chain Sustainability: Enabling a Circular Economy in the Electronics Industry through Green Engineering. ACS Sustainable Chemistry & Engineering 2016, 4: 5879-5888. DOI: 10.1021/acssuschemeng.6b01954.Peer-Reviewed Original ResearchGreen engineeringFabrication efficiencyElectronic technologyComplex waste streamsE-waste recoveryDesign devicesElectronics industryRecycled materialsSpecialty elementsManufacturing processE-waste componentsWaste streamsCircular economyMaterial supply chainSame materialTechnologyEngineeringRapid innovationElectronicsMaterialsDevicesTechnical researchRare earthIndustry oneEfficiency
2006
Chapter 10 When is waste not a waste?
Zimmerman J, Anastas P. Chapter 10 When is waste not a waste? Sustainability Science And Engineering 2006, 1: 201-221. DOI: 10.1016/s1871-2711(06)80017-6.Peer-Reviewed Original Research