Degradation Mechanisms of 4,7-Dihydroxycoumarin Derivatives in Advanced Oxidation Processes: Experimental and Kinetic DFT Study

Degradation Mechanisms of 4,7-Dihydroxycoumarin Derivatives in Advanced Oxidation Processes: Experimental and Kinetic DFT Study

Coumarins represent a broad class of compounds with pronounced pharmacological properties and therapeutic potential. The pursuit of the commercialization of these compounds requires the establishment of controlled and highly efficient degradation processes, such as advanced oxidation processes (AOPs...

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Published in:International journal of environmental research and public health Vol. 20; no. 3; p. 2046
Main Authors: Milanović, Žiko, Dimić, Dušan, Klein, Erik, Biela, Monika, Lukeš, Vladimír, Žižić, Milan, Avdović, Edina, Bešlo, Drago, Vojinović, Radiša, Dimitrić Marković, Jasmina, Marković, Zoran
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 22-01-2023
MDPI
Subjects:
Aminophenol
Anticoagulants
Aquatic Organisms
Biomolecules
Chronic toxicity
Commercialization
Degradation
Density functional theory
Electron paramagnetic resonance
Electron spin resonance
Hydroxyl Radical
Inactivation
Investigations
Kinetics
Nitrogen oxides
Oxidation
Oxidation-Reduction
Quantum mechanics
Quantum physics
Radicals
Spectroscopy
Water Pollutants, Chemical - analysis
hydroxyl radical
radical scavenging
DFT
4,7-dihydroxycoumarin
EPR
QM−ORSA
AOPs
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Summary:Coumarins represent a broad class of compounds with pronounced pharmacological properties and therapeutic potential. The pursuit of the commercialization of these compounds requires the establishment of controlled and highly efficient degradation processes, such as advanced oxidation processes (AOPs). Application of this methodology necessitates a comprehensive understanding of the degradation mechanisms of these compounds. For this reason, possible reaction routes between HO and recently synthesized aminophenol 4,7-dihydroxycoumarin derivatives, as model systems, were examined using electron paramagnetic resonance (EPR) spectroscopy and a quantum mechanical approach (a QM-ORSA methodology) based on density functional theory (DFT). The EPR results indicated that all compounds had significantly reduced amounts of HO radicals present in the reaction system under physiological conditions. The kinetic DFT study showed that all investigated compounds reacted with HO via HAT/PCET and SPLET mechanisms. The estimated overall rate constants ( ) correlated with the EPR results satisfactorily. Unlike HO radicals, the newly formed radicals did not show (or showed negligible) activity towards biomolecule models representing biological targets. Inactivation of the formed radical species through the synergistic action of O /NO or the subsequent reaction with HO was thermodynamically favored. The ecotoxicity assessment of the starting compounds and oxidation products, formed in multistage reactions with O /NO and HO , indicated that the formed products showed lower acute and chronic toxicity effects on aquatic organisms than the starting compounds, which is a prerequisite for the application of AOPs procedures in the degradation of compounds.
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ISSN:1660-4601
1661-7827
1660-4601
DOI:10.3390/ijerph20032046