Oxidation of Organic Compounds in Water by Unactivated Peroxymonosulfate

化学 激进的 光化学 单线态氧 电子顺磁共振 过氧化氢 反应性(心理学) 羟基自由基 猝灭(荧光) 无机化学 氧气 有机化学 荧光 核磁共振 替代医学 病理 物理 医学 量子力学
作者
Yi Yang,Gourab Banerjee,Gary W. Brudvig,Jae‐Hong Kim,Joseph J. Pignatello
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:52 (10): 5911-5919 被引量:860
标识
DOI:10.1021/acs.est.8b00735
摘要

Peroxymonosulfate (HSO5- and PMS) is an optional bulk oxidant in advanced oxidation processes (AOPs) for treating wastewaters. Normally, PMS is activated by the input of energy or reducing agent to generate sulfate or hydroxyl radicals or both. This study shows that PMS without explicit activation undergoes direct reaction with a variety of compounds, including antibiotics, pharmaceuticals, phenolics, and commonly used singlet-oxygen (1O2) traps and quenchers, specifically furfuryl alcohol (FFA), azide, and histidine. Reaction time frames varied from minutes to a few hours at pH 9. With the use of a test compound with intermediate reactivity (FFA), electron paramagnetic resonance (EPR) and scavenging experiments ruled out sulfate and hydroxyl radicals. Although 1O2 was detected by EPR and is produced stoichiometrically through PMS self-decomposition, 1O2 plays only a minor role due to its efficient quenching by water, as confirmed by experiments manipulating the 1O2 formation rate (addition of H2O2) or lifetime (deuterium solvent isotope effect). Direct reactions with PMS are highly pH- and ionic-strength-sensitive and can be accelerated by (bi)carbonate, borate, and pyrophosphate (although not phosphate) via non-radical pathways. The findings indicate that direct reaction with PMS may steer degradation pathways and must be considered in AOPs and other applications. They also signal caution to researchers when choosing buffers as well as 1O2 traps and quenchers.
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