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Assessing the source of the photochemical formation of hydroxylating species from dissolved organic matter using model sensitizers

Kylie D. Couch, Frank Leresche, Claire Farmer, Garrett McKay, Fernando L. Rosario‐Ortiz

2021Environmental Science Processes & Impacts17 citationsDOI

Abstract

DOM*), and hydroxylating species (˙OH and other intermediates of similar reaction chemistry). The formation mechanism of most reactive intermediates is well understood, but this is not the case for the formation of hydroxylating species from DOM. To investigate this chemistry, DOM model sensitizers were irradiated with two different probe compounds (benzene and benzoic acid) at two irradiation wavelengths (254 and 320 nm). The ability of DOM model sensitizers to hydroxylate these arene probes was assessed by measuring rates of formation of the hydroxylated probe compounds (phenol and salicylic acid). Multiple classes of model sensitizers were tested, including quinones, hydroxybenzoic acids, aromatic ketones, and other triplet forming species. Of these classes of model sensitizers, only quinones and hydroxybenzoic acids had a hydroxylating capacity. Methanol quenching experiments were used to assess the reactivity of hydroxylating species. These results have several implications for the systems tested. First, they suggest that the hydroxylating intermediate produced from hydroxybenzoic acid photolysis may not be hydroxyl radical, but a different hydroxylating species. Also, these data prompted investigation of whether quinone photoproducts have a hydroxylating capacity. These results confirm that hydroxybenzoic acids and quinones are important to the photochemical production of hydroxylating species from DOM, but the mechanism by which this occurs for these classes of sensitizers is still elusive.

Topics & Concepts

ChemistryPhotochemistryHydroxybenzoic acidReactive intermediateSinglet oxygenBenzoic acidPhenolQuenching (fluorescence)Organic chemistryOxygenCatalysisFluorescencePhysicsQuantum mechanicsAdvanced oxidation water treatmentAtmospheric chemistry and aerosolsMarine and coastal ecosystems
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