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Generation of hydroxyl radical during chlorination of hydroxyphenols and natural organic matter extracts
Rodríguez, E. M., & von Gunten, U. (2020). Generation of hydroxyl radical during chlorination of hydroxyphenols and natural organic matter extracts. Water Research, 177, 115691 (15 pp.). https://doi.org/10.1016/j.watres.2020.115691
Aqueous oxidation of sulfonamide antibiotics: aromatic nucleophilic substitution of an aniline radical cation
Tentscher, P. R., Eustis, S. N., McNeill, K., & Arey, J. S. (2013). Aqueous oxidation of sulfonamide antibiotics: aromatic nucleophilic substitution of an aniline radical cation. Chemistry: A European Journal, 19(34), 11216-11223. https://doi.org/10.1002/chem.201204005
Synthesis and properties of titanomagnetite (Fe<SUB>3</SUB>-<SUB><I>x</I></SUB>Ti<SUB><I>x</I></SUB>O<SUB>4</SUB>) nanoparticles: a tunable solid-state Fe(II/III) redox system
Pearce, C. I., Qafoku, O., Liu, J., Arenholz, E., Heald, S. M., Kukkadapu, R. K., … Rosso, K. M. (2012). Synthesis and properties of titanomagnetite (Fe3-xTixO4) nanoparticles: a tunable solid-state Fe(II/III) redox system. Journal of Colloid and Interface Science, 387(1), 24-38. https://doi.org/10.1016/j.jcis.2012.06.092
Oxidation of aquatic organic contaminants induced by excited triplet states
Canonica, S. (2007). Oxidation of aquatic organic contaminants induced by excited triplet states. Chimia, 61(10), 641-644. https://doi.org/10.2533/chimia.2007.641
Quantitative structure-activity relationships for oxidation reactions of organic chemicals in water
Canonica, S., & Tratnyek, P. G. (2003). Quantitative structure-activity relationships for oxidation reactions of organic chemicals in water. Environmental Toxicology and Chemistry, 22(8), 1743-1754. https://doi.org/10.1897/01-237