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Effects of photo-oxidation and transition metals on the formation of reactive oxygen species from aromatic compounds using spectroscopic method. | LitMetric

Effects of photo-oxidation and transition metals on the formation of reactive oxygen species from aromatic compounds using spectroscopic method.

J Environ Sci (China)

College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 101408, China; Beijing Yanshan Earth Critical Zone National Research Station, Beijing 101408, China; Binzhou Institute of Technology, Binzhou 256606, China. Electronic address:

Published: May 2025

Particulate matter (PM) can cause adverse health effects by overproducing reactive oxygen species (ROS). Although the ability of PM to induce ROS generation depends on its composition and environmental factors. This study explores how photo-oxidation affects ROS generation from aromatic compounds (ACs, including catechol (CAT), phthalic acid (PA), and 4,4'-oxydibenzoic acid (4,4'-OBA)) and their mixtures with transition metals (TMs, including Fe(II), Mn(II), and Cu(II)) using Fourier-transform infrared (FTIR) and Ultraviolet-visible spectroscopy (UV-Vis). Results showed that photo-oxidation facilitated ROS generation from ACs. CAT-Fe(II)/Cu(II) showed synergistic effects, but 4,4'-OBA-Fe(II)/Cu(II) showed antagonistic effects. ACs-Mn(II) and PA-Fe(II)/Cu(II) exhibited synergistic effects first and then showed antagonistic effects. The different interactions were due to complexation between ACs and TMs. The photo-oxidized ACs-TMs significantly enhanced ROS generation compared with ACs-TMs. The study suggested the photo-oxidation mechanism involved that the transfer of π-electrons from the ground to an excited state in benzene rings and functional groups, leading to the breakage and formation of chemical bonds or easier π-electron transfer from ACs to TMs. The former could generate ROS directly or produce polymers that promoted ROS generation, while the latter promoted ROS generation by transferring π-electrons to dissolved oxygen quickly. Our study revealed that both interactions among components and photo-oxidation significantly influenced ROS generation. Future studies should integrate broader atmospheric factors and PM components to fully assess oxidative potential and health impacts.

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http://dx.doi.org/10.1016/j.jes.2024.03.025DOI Listing

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