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Superoxide radical (·O₂⁻)–driven peroxymonosulfate activation via cation-deficient lanthanum ferrite perovskite oxides : Electronic structure modulation for high-efficiency estrogen degradation in dairy wastewater

Shiyu Lv, Tian Yuan, Xueyan Zhang, Menghan Feng, Yuan Luo, Weilin Fu, Kai Fu, Yanli Luo, Feng Wang, Jixiu Wang

2025Advanced Composites and Hybrid Materials6 citationsDOIOpen Access PDF

Abstract

Estrogen is commonly found in dairy farm wastewater, garnering attention owing to its negative impacts on biological health and the environment. Herein, lanthanum ferrite perovskite oxides (LaFeO 3 ) with La defects were synthesized using the sol–gel and hydrothermal methods for efficient persulfate (PMS)-activated degradation of estrogen and other pollutants. Hydrothermally synthesized La 0.7 FeO 3 (H0.7-LFO) was tailored to produce a large amount of O 2 − , achieving 100% degradation of β-estradiol (β-E2) with an initial concentration of 2 mg/L within 60 min. The associated degradation rate constant was 22.03 times of that for sol–gel-synthesized La 0.7 FeO 3 . The considered H-0.7LFO/PMS system exhibited good degradation performance under various conditions, such as the coexistence of different ions, the involvement of humic acid substances, a wide pH range, and multiple reuses, indicating its excellent stability and reusability. When using the H-0.7LFO/PMS system for dairy farm wastewater, the β-E2 degradation capacity reached 82.16–99.25%, indicating notable potential for practical applications. Characterization analysis revealed that introducing La defects reduced the particle size and the number of abundant formed pores within H0.7-LFO. Further, electron transfer compensated for the involved La defect-induced charge imbalance, accelerating the Fe(III)–Fe(II)–Fe(III) redox cycle and enhancing pollutant degradation.

Topics & Concepts

ChemistryLanthanumDegradation (telecommunications)Perovskite (structure)Inorganic chemistryChemical engineeringPersulfateRedoxNuclear chemistryReaction rate constantNanoparticleChelationHumic acidLead dioxideHydrothermal circulationHydroxyl radicalParticle sizeCeriumSorptionEstrogenWastewaterElectron transferAdvanced oxidation water treatmentAdvanced Photocatalysis TechniquesWater Quality Monitoring and Analysis