Degradation of p-nitrophenol by nano-pyrite catalyzed Fenton reaction with enhanced peroxide utilization

摘要

Pyrite (FeS _(2) ) catalyzed conversion of H _(2) O _(2) into oxidants is increasingly recognized as a promising Fenton-like process for treating recalcitrant contaminants. However, the underlying mechanism remains unclear, especially for nano-pyrite. The present study explored the potential of a nano-pyrite Fenton system for p -nitrophenol oxidation using high energy ball milled nano-pyrite. The enhancement in ˙OH production, with 3 times faster p -nitrophenol degradation than the conventional Fenton system, is ascribed to the reduction of pyrite size to the nanoscale, which alters the Fe ~(2+) regeneration pathway, favoring faster and very efficient production of ˙OH during H _(2) O _(2) decomposition. The amount of H _(2) O _(2) required was reduced due to the increased conversion efficiency of H _(2) O _(2) to ˙OH from 13.90% (conventional Fenton) to 67.55%, in which surface S _(2) ~(2?) species served as an electron source. An interpretation of the degradation intermediates and mineralization pathway of p -nitrophenol was then made using gas chromatography-mass spectrometry. This study bridges the knowledge gap between p -nitrophenol removal and the nano-pyrite catalyzed oxidant generation process.