Fe(IV)═O/Fe(V)═O and [FeaqIVO]2+/[FeaqVO]3+ Cooperating with Free Radicals Induced High-Rate Sulfamethoxazole-Cr(VI) Simultaneous Removal in a Fe7S8-Persulfate Micro/Nanocatalytic System

Li, Chunyang; Wang, Wenbing; Fan, Qifeng; Zhang, Yunhui; Zhang, Meng; Dong, Qianling; Kifle, Ghebretensae Aron; Li, Hui

doi:10.1021/acsestengg.4c00053

ACS EST Eng.

2024

DOI: 10.1021/acsestengg.4c00053

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Fe(IV)═O/Fe(V)═O and [Fe_aq^IVO]²⁺/[Fe_aq^VO]³⁺ Cooperating with Free Radicals Induced High-Rate Sulfamethoxazole-Cr(VI) Simultaneous Removal in a Fe₇S₈-Persulfate Micro/Nanocatalytic System

Chunyang Li,

Wenbing Wang,

Qifeng Fan

et al.

Abstract: Conventional persulfate-based (PS-based) catalytic systems that resolve single-pollutant sulfamethoxazole (SMX) problems depend on free radicals. However, research on the contribution or cooperative effect of nonfree radical Fe(IV)/Fe(V) species and the interaction of cocontamination Cr(VI)-SMX has not been sufficiently elucidated. The production source of the Fe(IV)/ Fe(V) species requires further exploration and expansion. Here, a pyrrhotite-PS (Fe 7 S 8 -PS) micro/nanocatalytic system was independently cons… Show more

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Fe(IV)═O/Fe(V)═O and [Fe_aq^IVO]²⁺/[Fe_aq^VO]³⁺ Cooperating with Free Radicals Induced High-Rate Sulfamethoxazole-Cr(VI) Simultaneous Removal in a Fe₇S₈-Persulfate Micro/Nanocatalytic System

Cited by 2 publications

References 79 publications

Selective degradation of organic pollutants in the aquatic environment by microplastic-derived dissolved organic matter through molecular photoresponse sequence transformation

Selective degradation of organic pollutants in the aquatic environment by microplastic-derived dissolved organic matter through molecular photoresponse sequence transformation

Cobalt-iron Co-doped ammonium phosphomolybdate for electrocatalytic oxygen evolution in acidic electrolyte

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