Lauren Mullen
Appearances
- UV photolysis of nitrate has been shown to promote UV advanced oxidation by generating hydroxyl and other radical species capable of degrading organic micropollutants. New advances in UV source technology hold the potential to further capitalize on nitrate’s photosensitizing behavior…
Presenter
- UV photolysis of nitrate has been shown to promote UV advanced oxidation by generating hydroxyl and other radical species capable of degrading organic micropollutants. New advances in UV source technology hold the potential to further capitalize on nitrate’s photosensitizing behavior…
- : [ENVR] Division of Environmental Chemistry
Speakers
New York UniversityPacific Northwest National LaboratoryThomas M. Orlando, Ph.D.Professor, Georgia Institute of TechnologyPacific Northwest National LaboratoryUniversity of CincinnatiPostDoc, Swiss Federal Institute of Aquatic Science and TechnologyEawagColorado School of MinesColorado School of MinesETH-ZurichTexas A&M University - UV photolysis of nitrate has been shown to promote UV advanced oxidation by generating hydroxyl and other radical species capable of degrading organic micropollutants. New advances in UV source technology hold the potential to further capitalize on nitrate’s photosensitizing behavior…
- : [ENVR] Division of Environmental Chemistry
Speakers
New York UniversityTexas A&M UniversityETH-ZurichPacific Northwest National LaboratoryThomas M. Orlando, Ph.D.Professor, Georgia Institute of TechnologyPacific Northwest National LaboratoryUniversity of CincinnatiPostDoc, Swiss Federal Institute of Aquatic Science and TechnologyEawagColorado School of MinesColorado School of Mines - DateMarch 27, 2023UV photolysis of nitrate has been shown to promote UV advanced oxidation by generating hydroxyl and other radical species capable of degrading organic micropollutants. New advances in UV source technology hold the potential to further capitalize on nitrate’s photosensitizing behavior…
Presenter
