Efficient Fenton-like degradation of tetracycline by stalactite-like CuCo-LDO/CN catalysts: The overlooked contribution of dissolved oxygen.

[1]  Yiyang Liu,et al.  Enhanced visible light photo-Fenton-like degradation of tetracyclines by expanded perlite supported FeMo3Ox/g-C3N4 floating Z-scheme catalyst. , 2022, Journal of hazardous materials.

[2]  Shaobin Wang,et al.  CuxNiyCo-LDH nanosheets on graphene oxide: An efficient and stable Fenton-like catalyst for dual-mechanism degradation of tetracycline , 2022, Chemical Engineering Journal.

[3]  Q. Yue,et al.  Activation of peroxymonosulfate via mediated electron transfer mechanism on single-atom Fe catalyst for effective organic pollutants removal , 2021, Applied Catalysis B: Environmental.

[4]  Chao Lu,et al.  H2O2 inducing dissolved oxygen activation and electron donation of pollutants over Fe-ZnS quantum dots through surface electron-poor/rich microregion construction for water treatment. , 2021, Journal of hazardous materials.

[5]  Jinlong Zhang,et al.  0D/3D coupling of g-C3N4 QDs/hierarchical macro-mesoporous CuO-SiO2 for high-efficiency norfloxacin removal in photo-Fenton-like processes. , 2021, Journal of hazardous materials.

[6]  Hanmei Hu,et al.  Fabrication of hierarchical CuO architectures displaying the (111) facets‐enhanced superior fenton‐like degradation of organic dyes , 2021, Journal of Materials Science: Materials in Electronics.

[7]  C. Niu,et al.  Incorporating Fe3C into B, N co-doped CNTs: Non-radical-dominated peroxymonosulfate catalytic activation mechanism , 2021 .

[8]  Hongqi Sun,et al.  Heterogeneous electro-Fenton catalysis with self-supporting CFP@MnO2-Fe3O4/C cathode for shale gas fracturing flowback wastewater. , 2021, Journal of hazardous materials.

[9]  Nan Jiang,et al.  Degradation of chloramphenicol by pulsed discharge plasma with heterogeneous Fenton process using Fe3O4 nanocomposites , 2020 .

[10]  Shaobin Wang,et al.  Efficient photocatalytic overall water splitting on metal-free 1D SWCNT/2D ultrathin C3N4 heterojunctions via novel non-resonant plasmonic effect , 2020, Applied Catalysis B: Environmental.

[11]  Lixiang Zhou,et al.  Activation of peroxymonosulfate with CuCo2O4@kaolin for the efficient degradation of phenacetin , 2020 .

[12]  Jinfeng Lu,et al.  New insights into the mechanisms of tartaric acid enhancing homogeneous and heterogeneous copper-catalyzed Fenton-like systems. , 2020, Journal of hazardous materials.

[13]  Lichao Nengzi,et al.  Efficient degradation of sulfamethoxazole by CuCo LDH and LDH@fibers composite membrane activating peroxymonosulfate , 2020 .

[14]  Yang Zheng,et al.  Metal-free heterojunction of black phosphorus/oxygen-enriched porous g-C3N4 as an efficient photocatalyst for Fenton-like cascade water purification , 2020 .

[15]  Shaomin Liu,et al.  Ultrafine copper nanoclusters and single sites for Fenton-like reactions with high atom utilities , 2020 .

[16]  Hongbing Yu,et al.  Peculiar synergetic effect of γ-Fe2O3 nanoparticles and graphene oxide on MIL-53 (Fe) for boosting photocatalysis , 2020, Chemical Engineering Journal.

[17]  J. Crittenden,et al.  Efficient degradation of lomefloxacin by Co-Cu-LDH activating peroxymonosulfate process: Optimization, dynamics, degradation pathway and mechanism. , 2020, Journal of hazardous materials.

[18]  Daniel C W Tsang,et al.  Novel CuCo2O4 Composite Spinel with Meso-macroporous Nanosheets Structure for Sulfate Radical Formation and Benzophenone-4 Degradation: Interface Reaction, Degradation Pathway and DFT Calculation. , 2020, ACS applied materials & interfaces.

[19]  Jingjing Wan,et al.  MOFs derived Co/Cu bimetallic nanoparticles embedded in graphitized carbon nanocubes as efficient Fenton catalysts. , 2020, Journal of hazardous materials.

[20]  Peifang Wang,et al.  Photocatalytic activity of N-TiO2/O-doped N vacancy g-C3N4 and the intermediates toxicity evaluation under tetracycline hydrochloride and Cr(VI) coexistence environment , 2020 .

[21]  Yan Wu,et al.  Synthesis of CuNiSn LDHs as highly efficient Fenton catalysts for degradation of phenol , 2020 .

[22]  Yanbo Zhou,et al.  Enhanced removal of bisphenol A by cyclodextrin in photocatalytic systems: Degradation intermediates and toxicity evaluation , 2020 .

[23]  Chao Lu,et al.  Enhanced polarization of electron-poor/rich micro-centers over nZVCu-Cu(II)-rGO for pollutant removal with H2O2. , 2020, Journal of hazardous materials.

[24]  A. Rai,et al.  Designed synthesis of CuCo2O4 /CuO nano-composite as a potential anode material for lithium ion batteries , 2020 .

[25]  S. Ramakrishna,et al.  MOF [NH2-MIL-101(Fe)] as a powerful and reusable Fenton-like catalyst , 2020 .

[26]  Y. Liu,et al.  MOF-derived metal-free N-doped porous carbon mediated peroxydisulfate activation via radical and non-radical pathways: Role of graphitic N and C O , 2020 .

[27]  E. P. Tsang,et al.  Critical role of oxygen vacancies in heterogeneous Fenton oxidation over ceria-based catalysts. , 2020, Journal of colloid and interface science.

[28]  Tongjie Yao,et al.  Highly efficient microwave-assisted Fenton degradation of metacycline using pine-needle-like CuCo2O4 nanocatalyst , 2019, Chemical Engineering Journal.

[29]  Z. Fang,et al.  Green synthesis of Fe-based material using tea polyphenols and its application as a heterogeneous Fenton-like catalyst for the degradation of lincomycin , 2019, Journal of Cleaner Production.

[30]  D. Dionysiou,et al.  Monodispersed CuFe2O4 nanoparticles anchored on natural kaolinite as highly efficient peroxymonosulfate catalyst for bisphenol A degradation , 2019, Applied Catalysis B: Environmental.

[31]  B. Lai,et al.  Degradation of tetracycline by peroxymonosulfate activated with zero-valent iron: Performance, intermediates, toxicity and mechanism , 2019, Chemical Engineering Journal.

[32]  Chun Hu,et al.  Efficient Fenton-like Process Induced by Fortified Electron-Rich O Microcenter on the Reduction State Cu-Doped CNO Polymer. , 2019, ACS applied materials & interfaces.

[33]  G. Zeng,et al.  Fabrication of novel magnetic MnFe2O4/bio-char composite and heterogeneous photo-Fenton degradation of tetracycline in near neutral pH. , 2019, Chemosphere.

[34]  D. Dionysiou,et al.  Enhanced antibiotic removal through a dual-reaction-center Fenton-like process in 3D graphene based hydrogels , 2019, Environmental Science: Nano.

[35]  Lianjun Wang,et al.  Enhanced heterogeneous Fenton-like systems based on highly dispersed Fe0-Fe2O3 nanoparticles embedded ordered mesoporous carbon composite catalyst. , 2018, Environmental pollution.

[36]  Wenxia Liu,et al.  Full-Spectrum Photocatalytic Activity of ZnO/CuO/ZnFe2O4 Nanocomposite as a PhotoFenton-Like Catalyst , 2018, Catalysts.

[37]  Yongyou Hu,et al.  Simultaneous degradation of tetracycline and denitrification by a novel bacterium, Klebsiella sp. SQY5. , 2018, Chemosphere.

[38]  Hongtao Yu,et al.  Heterogeneous activation of peroxymonosulfate by LaCo1-xCuxO3 perovskites for degradation of organic pollutants. , 2018, Journal of hazardous materials.

[39]  Yan Wu,et al.  Effective degradation of phenol via Fenton reaction over CuNiFe layered double hydroxides. , 2018, Journal of hazardous materials.

[40]  S. Cha,et al.  Self-Assembled Nanostructured CuCo2 O4 for Electrochemical Energy Storage and the Oxygen Evolution Reaction via Morphology Engineering. , 2018, Small.

[41]  Yujie Feng,et al.  Enhancing anaerobic digestion and methane production of tetracycline wastewater in EGSB reactor with GAC/NZVI mediator. , 2018, Water research.

[42]  Jia Li,et al.  ZnCr-LDH/N-doped graphitic carbon-incorporated g-C3N4 2D/2D nanosheet heterojunction with enhanced charge transfer for photocatalysis , 2018, Materials Research Bulletin.

[43]  Chun Hu,et al.  Efficient Destruction of Pollutants in Water by a Dual-Reaction-Center Fenton-like Process over Carbon Nitride Compounds-Complexed Cu(II)-CuAlO2. , 2018, Environmental science & technology.

[44]  B. Pan,et al.  Fe(III)-Doped g-C3N4 Mediated Peroxymonosulfate Activation for Selective Degradation of Phenolic Compounds via High-Valent Iron-Oxo Species. , 2018, Environmental science & technology.

[45]  J. Figueiredo,et al.  The role of cobalt in bimetallic iron-cobalt magnetic carbon xerogels developed for catalytic wet peroxide oxidation , 2017 .

[46]  Chao Yang,et al.  Oxygen Vacancy Promoted Heterogeneous Fenton-like Degradation of Ofloxacin at pH 3.2-9.0 by Cu Substituted Magnetic Fe3O4@FeOOH Nanocomposite. , 2017, Environmental science & technology.

[47]  T. Radu,et al.  Green synthesis of g-C3N4/CuONP/LDH composites and derived g-C3N4/MMO and their photocatalytic performance for phenol reduction from aqueous solutions , 2017 .

[48]  G. He,et al.  Selective H2O2 conversion to hydroxyl radicals in the electron-rich area of hydroxylated C-g-C3N4/CuCo–Al2O3 , 2017 .

[49]  Bo Zhang,et al.  Defect-Rich Ultrathin Cobalt-Iron Layered Double Hydroxide for Electrochemical Overall Water Splitting. , 2016, ACS applied materials & interfaces.

[50]  Reza Abazari,et al.  Magnetically recoverable Fe3O4-ZnO/AOT nanocomposites: Synthesis of a core–shell structure via a novel and mild route for photocatalytic degradation of toxic dyes , 2016 .

[51]  Lan Yang,et al.  Hierarchical flower-like Co–Cu mixed metal oxide microspheres as highly efficient catalysts for selective oxidation of ethylbenzene , 2016 .

[52]  Chun Hu,et al.  Enhanced Fenton-like degradation of pharmaceuticals over framework copper species in copper-doped mesoporous silica microspheres , 2015 .

[53]  Lianjun Wang,et al.  Iron–copper bimetallic nanoparticles supported on hollow mesoporous silica spheres: an effective heterogeneous Fenton catalyst for orange II degradation , 2015 .

[54]  David G. Evans,et al.  Catalytic applications of layered double hydroxides: recent advances and perspectives. , 2014, Chemical Society reviews.

[55]  Lizhi Zhang,et al.  Fe@Fe2O3 core-shell nanowires enhanced Fenton oxidation by accelerating the Fe(III)/Fe(II) cycles. , 2014, Water research.

[56]  Ying Dai,et al.  Electronic and magnetic properties of honeycomb transition metal monolayers: first-principles insights. , 2014, Physical chemistry chemical physics : PCCP.

[57]  J. Rivera-Utrilla,et al.  Kinetic study of tetracycline adsorption on sludge-derived adsorbents in aqueous phase , 2012 .

[58]  Xiaoming Yan,et al.  Heterogeneous sono-Fenton catalytic degradation of bisphenol A by Fe3O4 magnetic nanoparticles under neutral condition , 2012 .

[59]  Xu Zhao,et al.  Photoassisted degradation of endocrine disruptors over CuOx–FeOOH with H2O2 at neutral pH , 2009 .

[60]  A. Davidson,et al.  Size-Induced Structural Modifications Affecting Co3O4 Nanoparticles Patterned in SBA-15 Silicas , 2006 .

[61]  L. Zou,et al.  Self-generated template pathway to high-surface-area zinc aluminate spinel with mesopore network from a single-source inorganic precursor , 2006 .

[62]  D. Tichit,et al.  The aldol condensation of acetaldehyde and heptanal on hydrotalcite-type catalysts , 2003 .

[63]  Xiaoming Ma,et al.  Catalytic activation of peroxydisulfate by alfalfa-derived nitrogen self-doped porous carbon supported CuFeO2 for nimesulide degradation: Performance, mechanism and DFT calculation , 2021 .

[64]  Guangshan Zhang,et al.  High efficiency heterogeneous Fenton-like catalyst biochar modified CuFeO2 for the degradation of tetracycline: Economical synthesis, catalytic performance and mechanism , 2021, Applied Catalysis B: Environmental.

[65]  Xiaolei Fan,et al.  Supported CuO catalysts on metal-organic framework (Cu-UiO-66) for efficient catalytic wet peroxide oxidation of 4-chlorophenol in wastewater , 2020 .

[66]  Tianhu Chen,et al.  Sulfurized oolitic hematite as a heterogeneous Fenton-like catalyst for tetracycline antibiotic degradation , 2020 .

[67]  Yi-fan Han,et al.  Catalytic degradation of anthraquinones-containing H2O2 production effluent over layered Co-Cu hydroxides: Defects facilitating hydroxyl radicals generation , 2020 .