Generation and identification of 1O2 in catalysts/peroxymonosulfate systems for water purification

•Generation pathways of 1O2 in catalysts/PMS systems are reviewed.•Identification methods of 1O2 in catalysts/PMS systems are discussed.•Some possible strategies are proposed to regulate 1O2 generation.•Combination of identification methods is provided for 1O2 identification.•Critical perspectives a...

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Published in:Water research (Oxford) 2023-10, Vol.245, p.120614-120614, Article 120614
Main Authors: Fang, Qianzhen, Yang, Hailan, Ye, Shujing, Zhang, Peng, Dai, Mingyang, Hu, Xinjiang, Gu, Yanling, Tan, Xiaofei
Format: Article
Language:English
Subjects:
1O2
Catalysts
Generation pathways
Identification methods
PMS system
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Summary:•Generation pathways of 1O2 in catalysts/PMS systems are reviewed.•Identification methods of 1O2 in catalysts/PMS systems are discussed.•Some possible strategies are proposed to regulate 1O2 generation.•Combination of identification methods is provided for 1O2 identification.•Critical perspectives are presented for future studies. Catalysts for peroxymonosulfate (PMS) activation are appealing in the purification of organic wastewater. Singlet oxygen (1O2) is widely recognized as a crucial reactive species for degrading organic contaminants in catalysts/PMS systems due to its adamant resistance to inorganic anions, high selectivity, and broad pH applicability. With the rapid growth of studies on 1O2 in catalysts/PMS systems, it becomes necessary to provide a comprehensive review of its current state. This review highlights recent advancements concerning 1O2 in catalysts/PMS systems, with a primary focus on generation pathways and identification methods. The generation pathways of 1O2 are summarized based on whether (distinguished by the geometric structures of metal species) or not (distinguished by the active sites) the metal element is included in the catalysts. Furthermore, this review thoroughly discusses the influence of metal valence states and metal species with different geometric structures on 1O2 generation. Various potential strategies are explored to regulate the generation of 1O2 from the perspective of catalyst design. Identification methods of 1O2 primarily include electron paramagnetic resonance (EPR), quenching experiments, reaction in D2O solution, and chemical probe tests in catalysts/PMS systems. The principles and applications of these methods are presented comprehensively along with their applicability, possible disagreements, and corresponding solutions. Besides, an identifying procedure on the combination of main identification methods is provided to evaluate the role of 1O2 in catalysts/PMS systems. Lastly, several perspectives for further studies are proposed to facilitate developments of 1O2 in catalysts/PMS systems. [Display omitted]
ISSN:0043-1354
1879-2448
DOI:10.1016/j.watres.2023.120614