Insights into degradation of pharmaceutical pollutant atenolol via electrochemical advanced oxidation processes with modified Ti4O7 electrode: Efficiency, stability and mechanism.
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Chenhao Gong | X. Ren | Zhongguo Zhang | Liangliang Wang | Junxing Han | Can He | Yue Shan | Li Shi
[1] P. Westerhoff,et al. Overcoming barriers for nitrate electrochemical reduction: By-passing water hardness. , 2022, Water research.
[2] Uraiwan Sirimahachai,et al. Influence of electrochemical co-deposition of bimetallic Pt–Pd nanoclusters on polypyrrole modified ITO for enhanced oxidation of 4-(hydroxymethyl) pyridine , 2022, RSC advances.
[3] Zhaoyang Wang,et al. Advanced oxidation processes and selection of industrial water source: A new sight from natural organic matter. , 2022, Chemosphere.
[4] E. Yanful,et al. Comparative analysis of separation methods used for the elimination of pharmaceuticals and personal care products (PPCPs) from water – a critical review , 2022, Separation and Purification Technology.
[5] Jieyi Sun,et al. Insights into the electrooxidation of florfenicol by a highly active La-doped Ti4O7 anode , 2022, Separation and Purification Technology.
[6] P. Bhatt,et al. Occurrence, Toxicity Impacts and Mitigation of Emerging Micropollutants In the Aquatic Environments: Recent Tendencies and Perspectives , 2022, Journal of Environmental Chemical Engineering.
[7] R. Price,et al. Occurrence and removal of PPCPs from on-site wastewater using nitrogen removing biofilters. , 2021, Water research.
[8] Qingguo Huang,et al. Defect Engineering on a Ti4O7 Electrode by Ce3+ Doping for the Efficient Electrooxidation of Perfluorooctanesulfonate. , 2021, Environmental science & technology.
[9] M. Boily,et al. The countryside or the city: which environment is better for the honeybee? , 2021, Environmental research.
[10] Pratima Gupta,et al. Prevalence and hazardous impact of pharmaceutical and personal care products and antibiotics in environment: A review on emerging contaminants. , 2021, Environmental research.
[11] Zhiwei Wang,et al. Effect of the Presence of Carbon in Ti4O7 Electrodes on Anodic Oxidation of Contaminants. , 2020, Environmental science & technology.
[12] T. Breugelmans,et al. Mass transfer and hydrodynamic characterization of structured 3D electrodes for electrochemistry , 2020 .
[13] Yuanfang Liu,et al. Electrochemical oxidation of methyl orange by a Magnéli phase Ti4O7 anode. , 2020, Chemosphere.
[14] I. Lo,et al. Recent developments and challenges in practical application of visible-light-driven TiO2-based heterojunctions for PPCP degradation: A critical review. , 2019, Water research.
[15] S. Hampton,et al. An evidence synthesis of pharmaceuticals and personal care products (PPCPs) in the environment: imbalances among compounds, sewage treatment techniques, and ecosystem types. , 2019, Environmental science & technology.
[16] J. A. Santaballa,et al. Degradation of aqueous ketoprofen by heterogeneous photocatalysis using Bi2S3/TiO2–Montmorillonite nanocomposites under simulated solar irradiation , 2018, Applied Clay Science.
[17] Abha Sharma,et al. Application of advanced oxidation processes and toxicity assessment of transformation products. , 2018, Environmental research.
[18] B. Chaplin,et al. Electrochemical Oxidation of Atrazine and Clothianidin on Bi-doped SnO2-Ti nO2 n-1 Electrocatalytic Reactive Electrochemical Membranes. , 2018, Environmental science & technology.
[19] Jae-Hong Kim,et al. Challenges and prospects of advanced oxidation water treatment processes using catalytic nanomaterials , 2018, Nature Nanotechnology.
[20] Shixiang Gao,et al. Oxidative degradation of atenolol by heat-activated persulfate: Kinetics, degradation pathways and distribution of transformation intermediates. , 2018, Chemosphere.
[21] B. Chaplin,et al. Fabrication and characterization of porous, conductive, monolithic Ti4O7 electrodes , 2018 .
[22] M. Sillanpää,et al. Application of nanotechnologies for removing pharmaceutically active compounds from water: development and future trends , 2018 .
[23] L. A. Féris,et al. Removal of atenolol by adsorption – Study of kinetics and equilibrium , 2017 .
[24] V. Vilar,et al. Electrochemical advanced oxidation processes: A review on their application to synthetic and real wastewaters , 2017 .
[25] T. Sale,et al. Advanced Electrochemical Oxidation of 1,4-Dioxane via Dark Catalysis by Novel Titanium Dioxide (TiO2) Pellets. , 2016, Environmental science & technology.
[26] D. Wong,et al. Recent strategies to minimise fouling in electrochemical detection systems , 2016 .
[27] Guohua Chen,et al. Magnéli Ti4O7 modified ceramic membrane for electrically-assisted filtration with antifouling property , 2016 .
[28] D. Sedlak,et al. Challenges and Opportunities for Electrochemical Processes as Next-Generation Technologies for the Treatment of Contaminated Water. , 2015, Environmental science & technology.
[29] J. V. van Bokhoven,et al. Quantitative depth profiling of Ce(3+) in Pt/CeO2 by in situ high-energy XPS in a hydrogen atmosphere. , 2015, Physical chemistry chemical physics : PCCP.
[30] Dimitra A Lambropoulou,et al. Occurrence and removal of transformation products of PPCPs and illicit drugs in wastewaters: a review. , 2015, The Science of the total environment.
[31] Guohua Chen,et al. Highly-Ordered Magneli Ti4O7 Nanotube Arrays as Effective Anodic Material for Electro-oxidation , 2015 .
[32] Tianhu Chen,et al. Electro-catalytic degradation of bisphenol A with modified Co3O4/β-PbO2/Ti electrode , 2014 .
[33] Daniel Gerrity,et al. Prediction of micropollutant elimination during ozonation of municipal wastewater effluents: use of kinetic and water specific information. , 2013, Environmental science & technology.
[34] I. Nopens,et al. Comparison of ozone and HO· induced conversion of effluent organic matter (EfOM) using ozonation and UV/H2O2 treatment. , 2013, Water research.
[35] D. Bejan,et al. On the nature of the hydroxyl radicals produced at boron-doped diamond and Ebonex® anodes , 2012 .
[36] E. Hapeshi,et al. Drugs degrading photocatalytically: Kinetics and mechanisms of ofloxacin and atenolol removal on titania suspensions. , 2010, Water research.
[37] P. Dutta,et al. Fenten chemistry of Fe(III)-exchanged zeolitic minerals treated with antioxidants. , 2005, Environmental science & technology.
[38] P. Dutta,et al. Analysis of the biological and chemical reactivity of zeolite-based aluminosilicate fibers and particulates. , 2002, Environmental health perspectives.