Efficient photocatalytic degradation of furosemide by a novel sonoprecipited ZnO over ion exchanged clinoptilolite nanorods

[1]  R. Alizadeh,et al.  Enhanced heterogeneous catalytic ozonation of pharmaceutical pollutants using a novel nanostructure of iron-based mineral prepared via plasma technology: A comparative study. , 2020, Journal of hazardous materials.

[2]  A. Jafari,et al.  The comparison of ZnO/polyaniline nanocomposite under UV and visible radiations for decomposition of metronidazole: Degradation rate, mechanism and mineralization , 2019, Process Safety and Environmental Protection.

[3]  M. Haghighi,et al.  Facile one-pot ultrasound-assisted solvothermal fabrication of ball-flowerlike nanostructured (BiOBr)x(Bi7O9I3)1-x solid-solution for high active photodegradation of antibiotic levofloxacin under sun-light , 2019, Applied Catalysis B: Environmental.

[4]  S. G. Kumar,et al.  A review on plasmonic Au-ZnO heterojunction photocatalysts: Preparation, modifications and related charge carrier dynamics , 2019, Materials Science in Semiconductor Processing.

[5]  R. Alizadeh,et al.  Solar-light-driven photodegradation of organic dyes on sono-dispersed ZnO nanoparticles over graphene oxide: Sono vs. conventional catalyst design , 2019, Separation and Purification Technology.

[6]  M. Padaki,et al.  ZnO Zeolite Nanocomposite for Photocatalytic Elimination of Benzophenone and Caffeine , 2019, ChemistrySelect.

[7]  R. Alizadeh,et al.  Enhanced sono-dispersion of Bi5O7I and Bi2ClHO3 oxides over ZnO used as nanophotocatalyst in solar-light-driven removal of methylene blue from water , 2019, Journal of Photochemistry and Photobiology A: Chemistry.

[8]  Liping Wang,et al.  Study on degradation of marine product processing waste water by Zeolite/Bi/ZnO catalyst , 2019, Journal of Environmental Chemical Engineering.

[9]  K. Tyszczuk‐Rotko,et al.  Visible-light-driven photocatalytic removal of acetaminophen from water using a novel MWCNT-TiO2-SiO2 photocatalysts , 2018, Separation and Purification Technology.

[10]  R. Alizadeh,et al.  Sonoprecipitation dispersion of ZnO nanoparticles over graphene oxide used in photocatalytic degradation of methylene blue in aqueous solution: Influence of irradiation time and power. , 2018, Ultrasonics sonochemistry.

[11]  M. Haghighi,et al.  One-pot combustion fabrication of grain-like mesoporous intra-heterostructure BixOyClz nanophotocatalyst with substantial solar-light-driven degradation of antibiotic ofloxacin: influence of various fuels , 2018 .

[12]  S. Girish Kumar,et al.  Advancements in the zinc oxide nanomaterials for efficient photocatalysis , 2017, Chemical Papers.

[13]  Ş. Helvacı,et al.  Clinoptilolite supported rutile TiO2 composites: Synthesis, characterization, and photocatalytic activity on the degradation of terephthalic acid , 2017 .

[14]  M. Haghighi,et al.  CO2-enhanced dehydrogenation of ethane over sonochemically synthesized Cr/clinoptilolite-ZrO2 nanocatalyst: Effects of ultrasound irradiation and ZrO2 loading on catalytic activity and stability. , 2016, Ultrasonics sonochemistry.

[15]  Fariborz Haghighat,et al.  Removal of pharmaceuticals and endocrine disrupting compounds from water by zinc oxide-based photocatalytic degradation: A review , 2016 .

[16]  Mansor B. Ahmad,et al.  Effect of zinc oxide amounts on the properties and antibacterial activities of zeolite/zinc oxide nanocomposite. , 2016, Materials science & engineering. C, Materials for biological applications.

[17]  P. Rekha,et al.  Cu-impregnated zeolite Y as highly active and stable heterogeneous Fenton-like catalyst for degradation of Congo red dye , 2016 .

[18]  A. Khataee,et al.  Sonocatalytic removal of naproxen by synthesized zinc oxide nanoparticles on montmorillonite. , 2016, Ultrasonics sonochemistry.

[19]  M. Oturan,et al.  A coupled Bio-EF process for mineralization of the pharmaceuticals furosemide and ranitidine: Feasibility assessment. , 2016, Chemosphere.

[20]  A. Khataee,et al.  Photocatalytic degradation of ciprofloxacin by synthesized TiO2 nanoparticles on montmorillonite: Effect of operation parameters and artificial neural network modeling , 2015 .

[21]  M. Haghighi,et al.  The beneficial utilization of natural zeolite in preparation of Cr/clinoptilolite nanocatalyst used in CO2-oxidative dehydrogenation of ethane to ethylene , 2015 .

[22]  M. Oturan,et al.  Electro‐Oxidation of the Pharmaceutical Furosemide: Kinetics, Mechanism, and By‐Products , 2015 .

[23]  M. Mercedes Maroto-Valer,et al.  Review of material design and reactor engineering on TiO2 photocatalysis for CO2 reduction , 2015 .

[24]  C. Motti,et al.  Titanium dioxide/zeolite integrated photocatalytic adsorbents for the degradation of amoxicillin , 2015 .

[25]  Dasmawati Mohamad,et al.  Review on Zinc Oxide Nanoparticles: Antibacterial Activity and Toxicity Mechanism , 2015, Nano-Micro Letters.

[26]  M. Haghighi,et al.  Sono-dispersion of bimetallic Ni–Co over zeolite Y used in conversion of greenhouse gases CH4/CO2 to high valued syngas , 2015 .

[27]  Z. Yamani,et al.  Hierarchical ZnO/zeolite nanostructures: synthesis, growth mechanism and hydrogen detection , 2015 .

[28]  A. Khataee,et al.  Photocatalytic ozonation of phenazopyridine using TiO2 nanoparticles coated on ceramic plates: mechanistic studies, degradation intermediates and ecotoxicological assessments , 2015 .

[29]  A. Khataee,et al.  Monitoring simultaneous photocatalytic-ozonation of mixture of pharmaceuticals in the presence of immobilized TiO2 nanoparticles using MCR-ALS: Identification of intermediates and multi-response optimization approach. , 2015, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.

[30]  Alireza Nezamzadeh-Ejhieh,et al.  Effect of the supported ZnO on clinoptilolite nano-particles in the photodecolorization of semi-real sample bromothymol blue aqueous solution , 2015 .

[31]  L. Zhao,et al.  Synthetic zeolite supported ZnO nanoparticle materials for photocatalytic applications , 2015 .

[32]  Alireza Nezamzadeh-Ejhieh,et al.  Photocatalytic degradation of 4-nitrophenol with ZnO supported nano-clinoptilolite zeolite , 2014 .

[33]  M. Haghighi,et al.  Ultrasound assisted co-precipitation of nanostructured CuO-ZnO-Al2O3 over HZSM-5: effect of precursor and irradiation power on nanocatalyst properties and catalytic performance for direct syngas to DME. , 2014, Ultrasonics sonochemistry.

[34]  B. Glass,et al.  Titanium dioxide photocatalysis for pharmaceutical wastewater treatment , 2014, Environmental Chemistry Letters.

[35]  M. Oturan,et al.  Advanced Oxidation Processes in Water/Wastewater Treatment: Principles and Applications. A Review , 2014 .

[36]  Xiaogang Gu,et al.  Role of Reactive Oxygen Species for 1,1,1-Trichloroethane Degradation in a Thermally Activated Persulfate System , 2014 .

[37]  J. Carrera,et al.  Emerging organic contaminants in groundwater in Spain: a review of sources, recent occurrence and fate in a European context. , 2012, The Science of the total environment.

[38]  D. Barceló,et al.  Occurrence and distribution of pharmaceuticals in surface water, suspended solids and sediments of the Ebro river basin, Spain. , 2011, Chemosphere.

[39]  N. Daneu,et al.  The formation of oxide nanoparticles on the surface of natural clinoptilolite , 2011 .

[40]  M. Khodadadi-Moghaddam,et al.  Hydrothermal low-temperature preparation and characterization of ZnO nanoparticles supported on natural zeolite as a highly efficient photocatalyst , 2011 .

[41]  J. Lloyd,et al.  Optimizing Cr(VI) and Tc(VII) remediation through nanoscale biomineral engineering. , 2010, Environmental science & technology.

[42]  A. Borgna,et al.  An effective sonication-assisted reduction approach to synthesize highly dispersed Co nanoparticles on SiO2 , 2009 .

[43]  D. Mantzavinos,et al.  Removal of residual pharmaceuticals from aqueous systems by advanced oxidation processes. , 2009, Environment international.

[44]  F. Beltrán,et al.  Ozone and photocatalytic processes to remove the antibiotic sulfamethoxazole from water. , 2008, Water research.

[45]  S. Ismadji,et al.  Activated carbon from jackfruit peel waste by H3PO4 chemical activation: Pore structure and surface chemistry characterization , 2008 .

[46]  L. Zou,et al.  The synergistic effect of ozonation and photocatalysis on color removal from reused water , 2008 .

[47]  Jeanne Garric,et al.  Human pharmaceuticals in surface waters. Implementation of a prioritization methodology and application to the French situation. , 2008, Toxicology letters.

[48]  D. Aga Fate of Pharmaceuticals in the Environment and in Water Treatment Systems , 2007 .

[49]  D. Yeh,et al.  Removing pharmaceuticals and endocrine‐disrupting compounds from wastewater by photocatalysis , 2007 .

[50]  L. Palmisano,et al.  Heterogeneous photocatalytic degradation of pharmaceuticals in water by using polycrystalline TiO2 and a nanofiltration membrane reactor , 2006 .

[51]  M. Isidori,et al.  A multispecies study to assess the toxic and genotoxic effect of pharmaceuticals: furosemide and its photoproduct. , 2006, Chemosphere.

[52]  A. Khataee,et al.  The evaluation of electrical energy per order (E(Eo)) for photooxidative decolorization of four textile dye solutions by the kinetic model. , 2005, Chemosphere.

[53]  V. Murugesan,et al.  Enhanced photocatalytic activity for the destruction of monocrotophos pesticide by TiO2/Hβ , 2004 .

[54]  M. Birkved,et al.  Environmental risk assessment of human pharmaceuticals in Denmark after normal therapeutic use. , 2000, Chemosphere.

[55]  M. Anpo,et al.  Photoluminescence of zinc oxide powder as a probe of electron-hole surface processes , 1984 .

[56]  S. G. Kumar,et al.  Comparison of modification strategies towards enhanced charge carrier separation and photocatalytic degradation activity of metal oxide semiconductors (TiO2, WO3 and ZnO) , 2017 .

[57]  Alireza Nezamzadeh-Ejhieh,et al.  Enhanced photocatalytic activity of supported CuO–ZnO semiconductors towards the photodegradation of mefenamic acid aqueous solution as a semi real sample , 2016 .

[58]  S. G. Kumar,et al.  Zinc oxide based photocatalysis: tailoring surface-bulk structure and related interfacial charge carrier dynamics for better environmental applications , 2015 .

[59]  Z. Abbasi,et al.  Using ZnO supported on clinoptilolite as a catalyst for photocatalytic degradation of metil orange dye in water , 2013 .

[60]  D. Barceló,et al.  Occurrence, partition and removal of pharmaceuticals in sewage water and sludge during wastewater treatment. , 2011, Water research.

[61]  A. Fernández-Alba,et al.  Occurrence of emerging pollutants in urban wastewater and their removal through biological treatment followed by ozonation. , 2010, Water research.

[62]  Laurent Galichet,et al.  Clarke's analysis of drugs and poisons in pharmaceuticals, body fluids and postmortem material , 2004 .

[63]  K. Suslick 1.41 – Sonochemistry , 2003 .