o -Semiquinone Radical and o -Benzoquinone Selectively Degrade Aniline Contaminants in the Periodate-Mediated Advanced Oxidation Process.
Yangjian ZhouYu LeiQingqing KongFangyuan ChengMengge FanYanchun DengQing ZhaoJunlang QiuPeng WangXin YangPublished in: Environmental science & technology (2024)
Advanced oxidation processes (AOPs) often employ strong oxidizing inorganic radicals (e.g., hydroxyl and sulfate radicals) to oxidize contaminants in water treatment. However, the water matrix could scavenge the strong oxidizing radicals, significantly deteriorating the treatment efficiency. Here, we report a periodate/catechol process in which reactive quinone species (RQS) including the o -semiquinone radical ( o -SQ •- ) and o -benzoquinone ( o -Q) were dominant to effectively degrade anilines within 60 s. The second-order reaction rate constants of o -SQ •- and o -Q with aniline were determined to be 1.0 × 10 8 and 4.0 × 10 3 M -1 s -1 , respectively, at pH 7.0, which accounted for 21% and 79% of the degradation of aniline with a periodate-to-catechol molar ratio of 1:1. The major byproducts were generated via addition or polymerization. The RQS-based process exhibited excellent anti-interference performance in the degradation of aniline-containing contaminants in real water samples in the presence of diverse inorganic ions and organics. Subsequently, we extended the RQS-based process by employing tea extract and dissolved organic matter as catechol replacements as well as metal ions [e.g., Fe(III) or Cu(II)] as periodate replacements, which also exhibited good performance in aniline degradation. This study provides a novel strategy to develop RQS-based AOPs for the highly selective degradation of aniline-containing emerging contaminants.