Hydroxyl radicals in anodic oxidation systems: generation, identification and quantification

•·OH identification and quantification methods in anodic oxidation are summarized.•Misunderstandings in ·OH identification and quantification are described.•Reliable methods of ·OH identification and quantification are discussed.•Recent progress in understanding the mechanisms of ·OH generation is d...

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Bibliographic Details
Published in:Water research (Oxford) 2022-06, Vol.217, p.118425-118425, Article 118425
Main Authors: Xie, Jiangzhou, Zhang, Changyong, Waite, T. David
Format: Article
Language:English
Subjects:
Anodic oxidation
Generation mechanism
Hydroxyl radicals
Quantification
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Summary:•·OH identification and quantification methods in anodic oxidation are summarized.•Misunderstandings in ·OH identification and quantification are described.•Reliable methods of ·OH identification and quantification are discussed.•Recent progress in understanding the mechanisms of ·OH generation is discussed.•Utilization efficiencies of ·OH in typical electrochemical reactors are compared. Anodic oxidation has emerged as a promising treatment technology for the removal of a broad range of organic pollutants from wastewaters. Hydroxyl radicals are the primary species generated in anodic oxidation systems to oxidize organics. In this review, the methods of identifying hydroxyl radicals and the existing debates and misunderstandings regarding the validity of experimental results are discussed. Consideration is given to the methods of quantification of hydroxyl radicals in anodic oxidation systems with particular attention to approaches used to compare the electrochemical performance of different anodes. In addition, we describe recent progress in understanding the mechanisms of hydroxyl radical generation at the surface of most commonly used anodes and the utilization of hydroxyl radical in typical electrochemical reactors. This review shows that the key challenges facing anodic oxidation technology are related to i) the elimination of mistakes in identifying hydroxyl radicals, ii) the establishment of an effective hydroxyl radical quantification method, iii) the development of cost effective anode materials with high corrosion resistance and high electrochemical activity and iv) the optimization of electrochemical reactor design to maximise the utilization efficiency of hydroxyl radicals. [Display omitted] .
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2022.118425