Yufei Shao scite author profile

Potassium periodate (PI, KIO 4 ) was readily activated by Fe(II) under acidic conditions, resulting in the enhanced abatement of organic contaminants in 2 min, with the decay ratios of the selected pollutants even outnumbered those in the Fe(II)/ peroxymonosulfate and Fe(II)/peroxydisulfate processes under identical conditions. Both 18 O isotope labeling techniques using methyl phenyl sulfoxide (PMSO) as the substrate and Xray absorption near-edge structure spectroscopy provided conclusive evidences for the generation of high-valent iron−oxo species (Fe(IV)) in the Fe(II)/PI process. Density functional theory calculations determined that the reaction of Fe(II) with PI followed the formation of a hydrogen bonding complex between Fe(H 2 O) 62+ and IO 4 (H 2 O) − , ligand exchange, and oxygen atom transfer, consequently generating Fe(IV) species. More interestingly, the unexpected detection of 18 O-labeled hydroxylated PMSO not only favored the simultaneous generation of • OH but also demonstrated that • OH was indirectly produced through the self-decay of Fe(IV) to form H 2 O 2 and the subsequent Fenton reaction. In addition, IO 4− was not transformed into the undesired iodine species (i.e., HOI, I 2 , and I 3 − ) but was converted to nontoxic iodate (IO 3 − ). This study proposed an efficient and environmental friendly process for the rapid removal of emerging contaminants and enriched the understandings on the evolution mechanism of • OH in Fe(IV)-mediated processes.

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Surface-mediated periodate activation by nano zero-valent iron for the enhanced abatement of organic contaminants

Zong

Zhang

Shao

et al. 2022

Journal of Hazardous Materials

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Highly selective oxidation of organic contaminants in the RuIII-activated peroxymonosulfate process: The dominance of RuVO species

Zong

Zhang

et al. 2021

Chemosphere

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Yufei Shao

Enhanced Oxidation of Organic Contaminants by Iron(II)-Activated Periodate: The Significance of High-Valent Iron–Oxo Species

Surface-mediated periodate activation by nano zero-valent iron for the enhanced abatement of organic contaminants

Highly selective oxidation of organic contaminants in the RuIII-activated peroxymonosulfate process: The dominance of RuVO species

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