Ultralow Dose Protoporphyrin IX-Mediated Ferrate(VI) System for Rapid Degradation of Phenolic Pollutants: Key Roles of Fe(V/IV/III) Complexes

化学 原卟啉IX 污染物 催化作用 降级(电信) 苯酚 氧化还原 光敏剂 电子转移 光化学 动力学 组合化学 抗氧化剂 原卟啉 酚类 催化循环 选择性 水处理 羟基自由基 氧化磷酸化 臭氧 反应中间体 激进的 反应机理 化学动力学
作者
Yingying Chu,Jiahang Liu,Xiaoyang Li,Mengying Qian,Sheng Li,Zhiqiang Yang,Weiming Zhang
出处
期刊:Environmental Science & Technology [American Chemical Society]
卷期号:60 (2): 2197-2206
标识
DOI:10.1021/acs.est.5c12534
摘要

Ferrate(VI) (Fe(VI)) is an ecofriendly oxidant for sustainable water remediation. Developing efficient activators that function at low dosages to enhance the oxidative performance is a key objective. This study first demonstrates that ultralow dosages (1 μM) of protoporphyrin IX (PPIX), at least an order of magnitude lower than conventional activators, markedly enhance Fe(VI)-mediated selective oxidation of phenolic pollutants. Mechanistic studies revealed that PPIX readily complexed with Fe(V/IV), enabling the formation of the Fe(V/IV)-PPIX complexes. These complexes served as the primary reactive species that significantly reduced the energy barrier for the oxidation of phenolic pollutants and accelerated electron transfer compared to unchelated Fe(V/IV). This electron-transfer efficiency is further modulated by the binding strength between phenolics and Fe(V/IV)-PPIX, with stronger binding facilitating faster electron transfer. Crucially, PPIX remained stable and was not consumed in the reaction. As a result, Fe(III)-PPIX could be efficiently reoxidized by Fe(VI/V/IV) to regenerate the reactive Fe(V/IV)-PPIX, establishing a sustainable catalytic cycle for pollutant degradation at ultralow PPIX dosages. The robustness of the redox cycling was supported by cyclic experiments, where the phenol removal efficiency remained stable after five consecutive runs. These findings provide new insights into developing low-dose catalysts to strengthen the Fe(VI) system for pollutant degradation.
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