Pilot-scale and large-scale Fenton-like applications with nano-metal catalysts: from catalytic modules to scale-up applications

Water Research, Journal Year: 2024, Volume and Issue: 266, P. 122425 - 122425

Published: Sept. 10, 2024

Language: Английский

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Protocatechuic acid enhanced the selective degradation of sulfonamide antibiotics in Fe(III)/peracetic acid process under actually neutral pH conditions

Water Research, Journal Year: 2024, Volume and Issue: 259, P. 121891 - 121891

Published: June 5, 2024

Language: Английский

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MoS2-based nanocomposites and aerogels for antibiotic pollutants removal from wastewater by photocatalytic degradation process: A review

Chemosphere, Journal Year: 2024, Volume and Issue: 354, P. 141582 - 141582

Published: March 8, 2024

Language: Английский

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Circulating microdroplet-driven self-Fenton for micropollutant elimination: the overlook of ligand-to-metal charge transfer and chloride radical

Applied Catalysis B Environment and Energy, Journal Year: 2025, Volume and Issue: unknown, P. 125214 - 125214

Published: Feb. 1, 2025

Language: Английский

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Photocatalytic Self-Fenton System of g-C3N4-Based for Degradation of Emerging Contaminants: A Review of Advances and Prospects

Molecules, Journal Year: 2023, Volume and Issue: 28(15), P. 5916 - 5916

Published: Aug. 6, 2023

The discharge of emerging pollutants in the industrial process poses a severe threat to ecological environment and human health. Photocatalytic self-Fenton technology combines advantages photocatalysis Fenton oxidation through situ generation hydrogen peroxide (H2O2) interaction with iron (Fe) ions generate large number strong reactive oxygen species (ROS) effectively degrade environment. Graphite carbon nitride (g-C3N4) is considered as most potential photocatalytic reduction reaction (ORR) photocatalyst for H2O2 production due its excellent chemical/thermal stability, unique electronic structure, easy manufacturing, moderate band gap (2.70 eV). Hence, this review, we briefly introduce degradation mechanisms. In addition, modification strategy g-C3N4-based system related applications environmental remediation are fully discussed summarized detail. Finally, prospects challenges discussed. We believe that review can promote construction novel efficient systems well further application other research fields.

Language: Английский

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Highly efficient catalytic Fenton-Like reactions of bimetallic Fe/Cu chelated on radiation functionalized nonwoven fabric for pollutant control

Journal of Hazardous Materials, Journal Year: 2024, Volume and Issue: 467, P. 133752 - 133752

Published: Feb. 9, 2024

Language: Английский

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Intriguing and boosting molybdenum sulfide (MoS2)-based materials for decontamination and purification of wastewater/seawater: An upgraded review

Separation and Purification Technology, Journal Year: 2024, Volume and Issue: 351, P. 128063 - 128063

Published: May 22, 2024

Language: Английский

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Generating 1O2 and CoIV=O through efficient peroxymonosulfate activation by ZnCo2O4 nanosheets for pollutant control

Nano Research, Journal Year: 2024, Volume and Issue: 17(9), P. 8025 - 8035

Published: July 25, 2024

Language: Английский

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Co-catalysis strategy for low-oxidant-consumption Fenton-like chemistry: From theoretical understandings to practical applications and future guiding strategies

Water Research, Journal Year: 2024, Volume and Issue: 267, P. 122488 - 122488

Published: Sept. 20, 2024

Language: Английский

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Atomically dispersed Co-N4 to activate peroxymonosulfate for efficient atrazine degradation: Synergistic radical and non-radical ways

Applied Surface Science, Journal Year: 2024, Volume and Issue: 661, P. 160066 - 160066

Published: April 7, 2024

Cobalt based nanomaterials are widely employed as effective catalysts for peroxymonosulfate (PMS) activation in advanced oxidation processes (AOPs). Single atom (SACs) state-of-the-art materials that endow active metal sites with maximal exposure to the reactants. In this study, molybdenum disulfide nanospheres a crumpled surface (cnMoS2) were designed and synthesized decorate atomically dispersed Co-N4 by immobilizing Co its unique fold structure nitrogen/carbon coating. The resulting Co-N-C-cnMoS2 used activate PMS rapid degradation of atrazine (ATZ). considered be main sites, enabling optimal 4.8Co-N-C-cnMoS2 catalyst remove 100 % ATZ within 20 min. addition, also showed good durability, tolerance inorganic anions cations, high activity wide pH range. cnMoS2 provided platform hold played roles though it was secondary, moreover accelerated Co2+/Co3+ cycles. 4.8Co-N-C-cnMoS2/PMS system, sulfate radical (SO4• ‾), hydroxyl radicals (•OH), superoxide (O2• ‾) singlet oxygen (1O2) generated, among which SO4• ‾ 1O2 predominant substances triggering degradation.

Language: Английский

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