Anchoring CoTiO3/TiO2 heterostructure on fiber network actuates flow-through Fenton-like oxidation: Electronic modulation and rapid pollutants degradation

Separation and Purification Technology, Journal Year: 2024, Volume and Issue: 336, P. 126231 - 126231

Published: Jan. 4, 2024

Language: Английский

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MOF/bacterial cellulose derived octahedral MnO/carbon nanofiber network: A hybrid for peroxymonosulfate activation toward degradation of tetracycline

Journal of Alloys and Compounds, Journal Year: 2023, Volume and Issue: 968, P. 171896 - 171896

Published: Aug. 26, 2023

Language: Английский

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Insights into ibuprofen degradation in boron-doped CuO/PMS systems: Role of Cu, kinetics, mechanisms and degradation pathways

Journal of Water Process Engineering, Journal Year: 2024, Volume and Issue: 69, P. 106711 - 106711

Published: Dec. 7, 2024

Language: Английский

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Mechanisms of removing terdizolamide phosphate from water by the activation of potassium peroxymonosulfate with CeFe2O4 biochar

Environmental Science and Pollution Research, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 30, 2025

Language: Английский

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Densely Stacked CoCu‒MOFs Coated with CuAl/LDH Enhance Sulfamethoxazole Degradation in PMS-Activated Systems

Nanomaterials, Journal Year: 2025, Volume and Issue: 15(6), P. 432 - 432

Published: March 11, 2025

As the most promising techniques for refractory antibiotic degradation in wastewater management, sulfate radical-based advanced oxidation processes (SR-AOPs) have attracted considerable attention. However, systematic studies on potassium peroxymonosulfate (PMS) activation by MOF-derived metal oxides coated with LDH materials are still lacking. In this work, a series of catalysts consisting CoCu-MOFs CuAl/LDH were synthesized PMS removal sulfamethoxazole (SMX). expected, catalyst showed high SMX and stability activation. CoCu/LDH/PMS reaction, was nearly 100% after 60 min, mineralization reached 53.7%. The excellent catalytic low leaching concentrations (Co: 0.013 mg/L, Cu: 0.313 mg/L), as detected ICP. Sulfate radicals hydroxyl identified dominant reactive species system. Moreover, presence 1O2 process revealed coupling non-radical radical processes. XPS results that layered structure CoCu/LDH promoted recycling ions (high valence), which facilitated heterogeneous effects different reaction conditions reuse cycles also determined. pathways proposed based intermediates LC/MS. activity provide new mechanistic understanding their potential utilization practical treatment.

Language: Английский

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Carbon nitride supported Co single-atom catalyst with low metal leaching for activation of peroxymonosulfate to degrade p-nitrophenol

Journal of Water Process Engineering, Journal Year: 2025, Volume and Issue: 72, P. 107418 - 107418

Published: March 13, 2025

Language: Английский

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MnO/MnS nanoparticles encapsulated in Lycopodium spores derived nitrogen-doped porous carbon as a cost-effective peroxymonosulfate activator for pollutant decontamination: Insight into the mechanism of electron transfer-dominated non-radical pathway

Journal of Colloid and Interface Science, Journal Year: 2025, Volume and Issue: unknown, P. 137428 - 137428

Published: March 1, 2025

Language: Английский

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Accelerating of Fe3+/Fe2+ redox cycle using palygorskite as phase regulator for peroxymonosulfate oxidation

Applied Clay Science, Journal Year: 2025, Volume and Issue: 271, P. 107790 - 107790

Published: March 27, 2025

Language: Английский

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Co/g-C3N4 photocatalysts as an efficient mediator to activate peroxymonosulfate under visible light for degrading ciprofloxacin: Characterization, intermediates and mechanism

Journal of environmental chemical engineering, Journal Year: 2025, Volume and Issue: unknown, P. 116595 - 116595

Published: April 1, 2025

Language: Английский

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Bimetallic porous catalyst derived from Enteromorpha for efficiently oxidation Rhodamine B: Non-radical mechanism

Colloids and Surfaces A Physicochemical and Engineering Aspects, Journal Year: 2025, Volume and Issue: unknown, P. 136915 - 136915

Published: April 1, 2025

Language: Английский

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