甲基橙
皮克林乳液
降级(电信)
乳状液
催化作用
化学工程
连续流动
材料科学
化学
连续生产
油酸甲酯
有机化学
橙色(颜色)
多相催化
作者
Hang Peng,Jingrui Yuan,Zehua Yang,Yuanyuan Shan,Xingbao Wang
出处
期刊:Nanoscale
[Royal Society of Chemistry]
日期:2026-01-01
摘要
Pickering emulsions stabilized by solid particles provide a well-defined interfacial environment for catalytic reactions. In this study, a continuous-flow Fenton oxidation system was developed using an oil-in-water Pickering emulsion stabilized by a nickel-aluminum layered double hydroxide/graphene composite. The material functions both as a solid emulsifier and a heterogeneous Fenton catalyst, forming a stable emulsion column under continuous operation. The system degraded over 97% of methyl orange within 8 h and maintained about 90% removal efficiency over 50 h of uninterrupted operation. In contrast, a conventional batch Fenton process achieved only ∼44% degradation under similar conditions. The enhanced performance is attributed to the coupled adsorption and catalytic oxidation at the oil-water interface. The emulsifier enriches methyl orange and activates H2O2 to generate reactive radicals. Even in the absence of externally added Fe2+, Ni2+ in the composite can activate H2O2, while the coexistence of Ni2+ and Fe2+ further promotes sustained radical generation. These results demonstrate that Pickering emulsion-based continuous reactors provide a robust and scalable strategy for the efficient removal of refractory organic pollutants.
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