<\/div>\n
Dantas, \u00c1.O.S.; Portiolli, M.L.; De Souza, L.P.; De Jesus, J.M.S.; De Melo Carneiro, J.G.; Ramos, B.; Lastre-Acosta, A.M.; Teixeira, A.C.S.C. Environmental fate of methomyl pesticide in river water: kinetic study, mathematical simulations and risk assessment. Journal of Environmental Chemical Engineering<\/em>, 12 (2), 112157, 2024.<\/p>\nAntonelli, R.; Pointer Malpass, G.R.; Teixeira, A.C.S.C. Adsorption and in-situ electrochemical regeneration in a clay-packed continuous reactor for the removal of the antibiotic sulfamethoxazole. Separation and Purification Technology<\/em>, 330, 125290, 2024.<\/p>\nPalharim, P.H.; Caira, M.C.D.; Gusm\u00e3o, C.A.; Ramos, B.; C\u00e2mara, A.G.; Pacheco, J.G.A.; Rodrigues Jr., O.; Teixeira, A.C.S.C. Enhanced photocatalytic activity and stability of WO3-AgCl\/Ag composites: Surface modulation by structure-directing agents for effective sunlight treatment of pharmaceutical wastewater. Journal of Photochemistry and Photobiology A-Chemistry<\/em>, 450, 115433, 2024.<\/p>\nTominaga, F.K.; de Jesus, J.M.S.; Klanovicz, N.; Redigolo, M.M.; Silva, T.T.; Lebre, D.T.; Teixeira, A.C.S.C.; Leo, P.; Borrely, S. I. Ecotoxicological assessment of metformin as an antidiabetic water residue treated by electron beam accelerator irradiation. Discover Water<\/em>, 4 (5), 1-13, 2024.<\/p>\nGusm\u00e3o, C.A.; Palharim, P.H.; Ramos, B.; Gouvea, D.; Rodrigues, O.; Teixeira, A.C.S.C. Enhanced visible light photocatalytic VOC oxidation via Ag-loaded TiO2\/SiO2 materials. Journal of Materials Science<\/em>, 59, 1215-1234, 2024.<\/p>\nMachado, F.; Teixeira, A.C.S.C.; Ruotolo, L.A.M. Critical review of Fenton and photo-Fenton wastewater treatment processes over the last two decades. International Journal of Environmental Science and Technology<\/em>, 20, 13995-14032, 2023.<\/p>\nMoya, M.T.M.; De Araujo, L.G.; Lopes, F.S.; Teixeira, A.C.S.C. TiO P25 and Kronos vlp 7000 materials activated by simulated solar light for atrazine degradation. International Journal of Chemical Reactor Engineering<\/em>, 21(10), 1211-1223, 2023.<\/p>\nMohod, A.; Palharim, P.H.; Ramos, B.; Moreira, P.F.; Teixeira, A.C.S.C.; Giudici, R. Phenol degradation using combined effects of hydrodynamic cavitation and oxidant: Doehlert matrix. Environmental Quality Management<\/em>, 33(1), 377-391, 2023.<\/p>\nDa Silva Souto, R.; De Souza, L.P.; Cordeiro Junior, P.J.M.; Ramos, B.; Teixeira, A.C.S.C.; Rocha, R.S.; Lanza, M.R.V. Insights into Hydrodynamic and Operational Conditions for Scalable Hydrogen Peroxide Electrosynthesis Applications. Industrial & Engineering Chemistry Research<\/em>, 62, 15084-15097, 2023.<\/p>\nAssis, G.C.; Antonelli, R.; Dantas, A.O.S.; Teixeira, A.C.S.C. Microplastics as hazardous pollutants: occurrence, effects, removal and mitigation by using plastic waste as adsorbents and supports for photocatalysts. Journal of Environmental Chemical Engineering<\/em>, 11, 111107, 2023.<\/p>\nKlanovicz, N.; De Jesus, J.M.S.; Costa, F.M.; De Assis, G.C.; Ramos, B.; Camargo, A.F.; Michelon, W.; Dallegrave, A.; Becker, R.W.; Treichel, H.; Teixeira, A.C.S.C. A novel hybrid continuous-flow wastewater treatment for lamotrigine degradation by combining enzymatic and photo-oxidative reactions. Journal of Water Process Engineering<\/em>, 56, 104395, 2023.<\/p>\nBalarabe, B.Y.; Maity, P.; Teixeira, A.C.S.C.; Iwarere, S.A. h-BN nanosheet-modified Ag\u2082WO\u2084 nanocomposite for improved photocatalytic dye removal: Insights into catalyst stability and reusability. Inorganic Chemistry Communications<\/em>, 158, 111560, 2023.<\/p>\nKlanovicz, N.; Camargo, A.F.; Ramos, B.; Michelon, W.; Treichel, H.; Teixeira, A.C.S.C. A review of hybrid enzymatic-chemical treatment for wastewater containing antiepileptic drugs. Environmental Science and Pollution Research<\/em>, 30(27), 69857-69881, 2023.<\/p>\nRamos, B.; Ferreira, L.B.; Palharim, P.H.; Metolina, P.; De Ara\u00fajo Gusm\u00e3o, C.; Teixeira, A.C.S.C. A continuous photo-Fenton-like process using persulfate salts for the degradation of acetaminophen under solar irradiation at circumneutral pH. Chemical Engineering Journal Advances<\/em>, 14, 100473, 2023.<\/p>\nRamos, B.; Vaz, W.F.; Diniz, L.F.; Sanches Neto, F.O.; Ribeiro, J.C.O.; Carvalho-Silva, V.H.; Teixeira, A.C.S.C; Ribeiro, C.; Napolitano, H.B.; Carvalho, P.S. Kinetics, mechanism, and tautomerism in ametryn acid hydrolysis: From molecular structure to environmental impacts. Chemosphere<\/em>, 324, 138278, 2023.<\/p>\nMohod, A.V.; Teixeira, A.C.S.C; Bagal, M.V.; Gogate, P.R.; Giudici, R. Degradation of organic pollutants from wastewater using hydrodynamic cavitation: A review. Journal of Environmental Chemical Engineering<\/em>, 11, 109773, 2023.<\/p>\nDe Jesus, J.M.S.; Argolo, A.S.; Tominaga, F.K.; Taqueda, M.E.; BILA, D.M.; Borrely, S.I.; Teixeira, A.C.S.C. Experimental Design and Bioassays as Tools to Investigate the Impact of Anodic Oxidation on Progestins Degradation. Water<\/em>, 15(1), 61, 2023.<\/p>\nMohod, A.V.; Clemente, D.B.; Klanovicz, N.; Moreira, P.F.; Bagal, M.V.; Teixeira, A.C.S.C; Giudici, R. Degradation of Rhodamine 6 G dye using a novel glass-marble packed bed reactor-based cavitation. Chemical Engineering and Processing<\/em>, 184, 109287, 2023.<\/p>\nBerardozzi, E.; Donadelli, J.A.; Teixeira, A.C.S.C.; Guardani, R.; Einschlag, F.S.G. Investigation of zero-valent iron (ZVI)\/H2O continuous processes using multivariate analysis and artificial neural networks. Chemical Engineering Journal<\/em>, Part 2, 453, 139930, 2023.<\/p>\nCastanheira, B.; Brochsztain, S.; Otubo, L.; Teixeira, A.C.S.C. Periodic mesoporous organosilicas containing naphthalenediimides as organic sensitizers for sulfadiazine photodegradation. Journal of Hazardous Materials<\/em>, Part B, 443, 130224, 2023.<\/p>\nPalharim, P.H.; Caira, M.C.D.A.; De Ara\u00fajo Gusm\u00e3o, C.; Ramos, B.; Dos Santos, G.T.; Rodrigues Jr., O.; Teixeira, A.C.S.C. Effect of temperature and time on the hydrothermal synthesis of WO3-AgCl photocatalysts regarding photocatalytic activity. Chemical Engineering Research and Design<\/em>, 188, 935-953, 2022.<\/p>\nDe Souza, L.P.; Carneiro, J.G.M.; Lastre-Acosta, A.M.; Ramos, B.; Teixeira, A.C.S.C. Environmental Persistence of the Antidepressant Fluoxetine and Its Pharmaceutical Alternative: Kinetics of Oxidation and Mathematical Simulations. Water<\/em>, 14, 3536, 2022.<\/p>\nDe Ara\u00fajo Gusm\u00e3o, C.; Borges, L.T.; Palharim, P.H.; Otubo, L.; Rodrigues, O.; Gouveia, D.; Ramos, B.; Teixeira, A.C.S.C. Synthesis, Characterization, and Application of Pt\/PtO2-TiO2\/SiO2 Materials on a Continuous Flow Packed Bed Microreactor for Enhanced Photocatalytic Activity under Sunlight. Water<\/em>, 14(23), 3864, 2022.<\/p>\nShah, S.S.; Ramos, B.; Teixeira, A.C.S.C. Adsorptive Removal of Methylene Blue Dye Using Biodegradable Superabsorbent Hydrogel Polymer Composite Incorporated with Activated Charcoal. Water<\/em>, 14, 3313, 2022.<\/p>\nKatsumata, C.P.; Parizi, M.P.S.; Lastre-Acosta, A.M.; Teixeira, A.C.S.C. Low Pressure UV Photolysis of the Pharmaceutical Compounds Acetaminophen, Atenolol, Bezafibrate, Diclofenac and Ibuprofen. Water<\/em>, 14, 3165, 2022.<\/p>\nMetolina, P.; De Oliveira, L.G.; Ramos, B.; De Souza Angelo, Y.; Minoprio, P.; Teixeira, A.C.S.C. Evaluation of the effectiveness of UV-C dose for photoinactivation of SARS-CoV-2 in contaminated N95 respirator, surgical and cotton fabric masks. Photochemical & Photobiological Sciences<\/em>, 21, 1915\u20131929, 2022.<\/p>\nDe Souza, L.P.; Sanches-Neto, F.O.; Yuki Junior, G.M.; Ramos, B.; Lastre-Acosta, A.M.; Carvalho-Silva, H.; Teixeira, A.C.S.C. Photochemical environmental persistence of venlafaxine in an urban water reservoir: A combined experimental and computational investigation. Process Safety and Environmental Protection<\/em>, 166, 478-490, 2022.<\/p>\nDe Ara\u00fajo Gusm\u00e3o, C.; Diniz, L.A.; Ramos, B.; C\u00e2mara, A.G.; Pacheco, J.G.A.; Teixeira, A.C.S.C. Optimization of TiO2\/SiO2 photocatalysts in a LED-irradiated gas-solid photoreactor for air treatment. Chemical Engineering Research & Design<\/em>, 185, 223-238, 2022.<\/p>\nKlanovicz, N.; Stefanski, F.S.; Camargo, A.F.; Michelon, W.; Treichel, H.; Teixeira, A.C.S.C. Complete wastewater discoloration by a novel peroxidase source with promising bioxidative properties. Journal Of Chemical Technology and Biotechnology<\/em>, 97(9), 2613-2625, 2022.<\/p>\nRocha, C.M.; Lastre-Acosta, A.M.; Parizi, M.P.S.; Teixeira, A.C.S.C. Environmental photochemical fate of pesticides ametryn and imidacloprid in surface water (Paranapanema River, S\u00e3o Paulo, Brazil). Environmental Science and Pollution Research<\/em>, 29, 42290-42304, 2022.<\/p>\nGusm\u00e3o, C.A.; Palharim, P.H.; Ramos, B.; Teixeira, A.C.S.C. Enhancing the visible-light photoactivity of silica-supported TiO2 for the photocatalytic treatment of pharmaceuticals in water. Environmental Science and Pollution Research<\/em>, 29, 42215-42230, 2022.<\/p>\nLastre-Acosta, A.M.; Rocha, C.M.; Mendes, M.A.; Teixeira, A.C.S.C.; Do Nascimento, C.A.O. Sunlight-driven environmental photodegradation of 2-chlorobiphenyl (PCB-1) in surface waters: kinetic study and mathematical simulations. Environmental Science and Pollution Research<\/em>, 29, 42231-42241, 2022.<\/p>\nNunes, R.F.; Teixeira, A.C.S.C. An overview on surfactants as pollutants of concern: Occurrence, impacts and persulfate-based remediation technologies. Chemosphere<\/em>, 300, 134507, 2022.<\/p>\nCastanheira, B.; Otubo, L.; Oliveira, C.L.P.; Montes, R.; Quintana, J.B.; Rodil, R.; Brochsztain, S.; Vilar, J.P.; Teixeira, A.C.S.C. Functionalized mesoporous silicas SBA-15 for heterogeneous photocatalysis towards CECs removal from secondary urban wastewater. Chemosphere<\/em>, 287, 132023, 2022.<\/p>\nPalharim, P.H.; Lastre-Acosta, A.M.; Mierzwa, J.C.; Teixeira, A.C.S.C. Influence of low and high dosages of methyl and propyl parabens on membrane bioreactor (MBR) performance. Separation Science and Technology<\/em>, 57, 1128-1138, 2022.<\/p>\nDa Silva, A.L.; Trindade, F.J.; Dalmasso, J.-L.; Ramos, B.; Teixeira, A.C.S.C.; Gouv\u00eaa, D. Synthesis of TiO2 microspheres by ultrasonic spray pyrolysis and photocatalytic activity evaluation. Ceramics International<\/em>, 48, 9739-9745, 2022.<\/p>\nNunes, R.F.; Tominaga, F.K.; Borrely, S.I.; Teixeira, A.C.S.C. UVA\/persulfate-driven nonylphenol polyethoxylate degradation: effect of process conditions. Environmental Technology<\/em>, 43, 286-300, 2022.<\/p>\nDe Jesus, J.M.S.; Tominaga, F.K.; Dos Santos Argolo, A.; Nascimento, A.C.G.; Borrely, S.I.; Vieira, D.P.; Bila, D.M.; Teixeira, A.C.S.C. Radiolytic degradation of levonorgestrel and gestodene: Performance and bioassays. Process Safety and Environmental Protection<\/em>, 162, 520-530, 2022.<\/p>\nRamos, B.; Godoy Silva, A.O.; Teixeira, A.C.S.C. Immobilization of ZnO nanoparticles onto glass spheres: effects of annealing temperature, zinc oxide concentration, and number of coating rounds on the photocatalytic activity under visible light. Brazilian Journal Of Chemical Engineering<\/em>, 39, 403-414, 2021.<\/p>\nAlmeida Diniz, L.; Matsumoto, D.; Teixeira, A.C.S.C. Photocatalytic degradation of n-hexane in a circulating fluidized bed: An investigation based on the freeboard entrainment model. Catalysis Today<\/em>, 361, 109-116, 2021.<\/p>\nDe Souza, L.P.; Gra\u00e7a, C.A.L.; Teixeira, A.C.S.C.; Chiavone-Filho, O. Degradation of 2,4,6-trichlorophenol in aqueous systems through the association of zero-valent-copper-mediated reduction and UVC\/H2O2: effect of water matrix and toxicity assessment. Environmental Science and Pollution Research<\/em>, 28, 24057-24066, 2021.<\/p>\nTominaga, F.K.; Silva, T.T.; Boiani, N.F.; De Jesus, J.M.S.; Teixeira, A.C.S.C.; Borrely, S.I. Is ionizing radiation effective in removing pharmaceuticals from wastewater?. Environmental Science and Pollution Research<\/em>, 28, 23975-23983, 2021.<\/p>\nRamos, B.; Carneiro, J.G.M.; Nagamati, L.I.; Teixeira, A.C.S.C. Development of intensified flat-plate packed-bed solar reactors for heterogeneous photocatalysis. Environmental Science and Pollution Research<\/em>, 28, 24023-24033, 2021.<\/p>\nMetolina, P.; Teixeira, A.C.S.C. A comprehensive dynamic kinetic model for the UVC\/H2O2 process: application to zinc bacitracin degradation in wastewater as a case study. Environmental Science and Pollution Research<\/em>, 28, 24150-24166, 2021.<\/p>\nMetolina, P.; Louren\u00e7o, F.R.; Teixeira, A.C.S.C. UVC- and UVC\/H2O2-Driven nonribosomal peptide antibiotics degradation: application to zinc bacitracin as a complex emerging contaminant. Journal of Environmental Science and Health, Part A, Toxic\/Hazardous Substances and Environmental Engineering<\/em>, 56, 97-112, 2021.<\/p>\nCunha, I.L.C.; Teixeira, A.C.S.C. Degradation of pesticides present in tomato rinse water by direct photolysis and UVC\/H2O2: optimization of process conditions through sequential Doehlert design. Environmental Science and Pollution Research<\/em>, 28, 24191-24205, 2021.<\/p>\nGon\u00e7alves Ricci, A.C.; Teixeira, A.C.S.C. Clarification of Sugarcane Juice by Ozonation and Anodic Electrooxidation: Effects of Process Variables and Energy Consumption. Sugar Tech<\/em>, 23, 1183-1191, 2021.<\/p>\nSanches-Neto, F.O.; Ramos, B.; Lastre-Acosta, A.M.; Teixeira, A.C.S.C.; Carvalho-Silva, H. Aqueous Picloram Degradation by Hydroxyl Radicals: Unveiling Mechanism, Kinetics, and Ecotoxicity through Experimental and Theoretical Approaches. Chemosphere<\/em>, 278, 130401, 2021.<\/p>\nTessaro, A.P.G.; Vicente, R.; Marumo, J.T.; Teixeira, A.C.S.C.; De Araujo, L.G. Preliminary studies on electron beam irradiation as a treatment method of radioactive oil sludge. Brazilian Journal of Radiation Sciences<\/em>, 9, 1-16, 2021.<\/p>\nLastre-Acosta, A.M.; Cristofoli, B.S.; Parizi, M.P.S.; Do Nascimento, C.A.O.; Teixeira, A.C.S.C. Photochemical persistence of sulfa drugs in aqueous medium: kinetic study and mathematical simulations. Environmental Science and Pollution Research<\/em>, 28, 23887-23895, 2021.<\/p>\nPalharim, P.H.; Fusari, B.L.D.R.; Ramos, B.; Otubo, L.; Teixeira, A.C.S.C. Effect of HCl and HNO3 on the Synthesis of Pure and Silver-Based WO3 for Improved Photocatalytic Activity under Sunlight. Journal of Photochemistry and Photobiology A: Chemistry<\/em>, 422, 113550, 2021.<\/p>\nKlanovicz, N.; Warken, A.; Paliga, L.; Camargo, A.F.; Scapini, T.; Buffon, J.G.; Fongaro, G.; Teixeira, A.C.S.C; Treichel, H. One-step procedure for peroxidase concentration, dye separation, and color removal by aqueous two-phase system. Environmental Science and Pollution Research<\/em>, 28, 9097-9106, 2021.<\/p>\nGra\u00e7a, C.A.L.; Mendes, M.A.; Teixeira, A.C.S.C.; de Velosa, A.C. Anoxic degradation of chlorpyrifos by zerovalent monometallic and bimetallic particles in solution. Chemosphere<\/em>, 244, 125461, 2020.<\/p>\nPalharim, P.H.; Gra\u00e7a, C.A.L.; Teixeira, A.C.S.C. Comparison between UVA- and zero-valent iron-activated persulfate processes for degrading propylparaben. Environmental Science and Pollution Research<\/em>, 27, 22214, 2020.<\/p>\nLastre-Acosta, A.M.; Palharim, P.H.; Barbosa, I.M.; Mierzwa, J.C.; Teixeira, A.C.S.C. Removal of sulfadiazine from simulated industrial wastewater by a membrane bioreactor and ozonation. Journal of Environmental Management<\/em>, 271, 111040, 2020.<\/p>\nRamos, B.; Couri, A.P.; Ookawara, S.; Teixeira, A.C.S.C. A Micro-structured packed bed reactors for solar photocatalysis: impacts of packing size and material on light harnessing. Photochemical and Photobiological Sciences<\/em>, 18, 577, 2019.<\/p>\nPeres, J.C.G.; Tambani, P.C.; Teixeira, A.C.S.C.; Guardani, R.; Vianna Junior, A.S.; Study of an annular photoreactor with tangential inlet and outlet. II. The UV\/ H2O2 reactive flow. Chemical Engineering & Technology<\/em>, 42, 316, 2019.<\/p>\nHollanda, Luana R.; Gra\u00e7a, C.A.L.; Andrade, L.M.; Mendes, M.A.; Chiavone-Filho, O.; Teixeira, A.C.S.C. Non-traditional atrazine degradation induced by zero-valent-copper: process optimization by the Doehlert experimental design, intermediates detection and toxicity assessment. Journal of Chemical Technology and Biotechnology<\/em>, 94, 1156, 2019.<\/p>\nSouza, L.P. ; Gra\u00e7a, C.A.L.; Taqueda, M.E.S.; Teixeira, A.C.S.C.; Chiavone-Filho, O. Insights into the reactivity of zero-valent-copper-containing materials as reducing agents of 2,4,6-trichlorophenol in a recirculating packed-column system: degradation mechanism and toxicity evaluation. Process Safety and Environmental Protection<\/em>, 127, 348, 2019.<\/p>\nMatsumoto, D. ; Diniz, L.A.; Castro, L. S.; A.C.S.C. Teixeira; Guardani, R.; de Paiva, J.L. Kinetic modeling and experimental validation of a photocatalytic fluidized bed reactor for n<\/em>-hexane degradation. Brazilian Journal of Chemical Engineering<\/em>, 36, 1561, 2019.<\/p>\nGra\u00e7a, C.A.L.; Maniero, M.G.; Andrade, L.M.; Guimar\u00e3es, J.R.; Teixeira, A.C.S.C. Evaluation of amicarbazone toxicity removal through degradation processes based on hydroxyl and sulfate radicals. Journal of Environmental Science and Health Part A – Toxic\/Hazardous Substances & Environmental Engineering<\/em>, 1, 1, 2019.<\/p>\nLastre-Acosta, A.M.; Vicente, R.; Mora, M.; J\u00e1uregui-Haza U.J.; Arques, A.; Teixeira, A.C.S.C. Photo-Fenton reaction at mildly acidic conditions: assessing the effect of bio-organic substances of different origin and characteristics through experimental design. Journal of Environmental Science and Health Part A – Toxic\/Hazardous Substances & Environmental Engineering<\/em>, 54, 711, 2019.<\/p>\nPeres, J.C.G.; Tambani, P.C.; Teixeira, A.C.S.C.; Guardani, R.; Jr., A.S.V. Study of an annular photoreactor with tangential inlet and outlet.II. The Uv\/H2O2 Reactive Flow. Chemical Engineering & Technology, <\/em>42, 316, 2019.<\/p>\nDiniz, L.A.; Hewer, T.L.R.; Matsumoto, D.; Teixeira, A.C.S.C. A comparison between the four Geldart groups on the performance of a gas-phase annular fluidized bed photoreactor for volatile organic compound oxidation. Environmental Science and Pollution Research,<\/em> 26 (5), 4242, 2019.<\/p>\nBorges, T.A.; Chiavone-Filho, O.; Teixeira, A.C.S.C.; Foletto, E.L.; Dotto, G.L.; Nascimento, C.A.O. Degradation of thiophanate-methyl fungicide by photo-Fenton process using lab-scale annular and solar tubular reactors. International Journal of Enverionmental Technology and Management<\/em>, 22, 128, 2019.<\/p>\nDe Ara\u00fajo, L.G.; Conte, L.O.; Schenone, A.V.; Alfano, O.M.; Teixeira, A.C.S.C. Degradation of bisphenol A by the UV\/H2O2 process: a kinetic study. Environmental Science and Pollution Research<\/em>, 27, 7299, 2019.<\/p>\nTominaga, F.K.; Batista, A.P.S; Teixeira, A.C.S.C.; Borrely, S.I. Degradation of diclofenac by electron beam irradiaton: Toxicitiy removal, by-products identification and effect of another pharmaceutical compound. Journal of Environmental Chemical Engineering,<\/em> 6, 4605, 2018.<\/p>\nLastre-Acosta, A.M.; Barberato, B.; Parizi, M.P.S.; Teixeira, A.C.S.C. Direct and indirect photolysis of the antibiotic enoxacin: kinetics of oxidation by reactive photo-induced species and simulations. Environmental Science and Pollution Research,<\/em> 2018. DOI: 10.1007\/s11356-018-2555-4.<\/p>\nCastanheira, B.; Triboni, E.R.; Andrade, L.S.; Trindade, F. J.; Otubo, L.; Teixeira, A.C.S.C.; Politi, M.J.; De Queiroz, T.B.; Brochsztain, S. Synthesis of novel periodic mesoporous organosilicas containing 1,4,5,8-naphthalenediimides within the pore walls and their reduction to generate wall-embedded free radicals. Langmuir<\/em>, 34, 8195, 2018.<\/p>\nGra\u00e7a, C.A.L.; Fugita, L.T.N.; Velosa, A.C.; Teixeira, A.C.S.C. Amicarbazone degradation promoted by ZVI-activated persulfate: study of relevant variables for practical application.\u00a0Environmental Science and Pollution Research,<\/em> 25, 5474, 2018<\/p>\nAraujo, L. G.; Santos, F.S.; Teixeira, A.C.S.C. Degradation of bisphenol A by the UV and UV\/H2<\/sub>O2<\/sub> processes: evaluation of process variables through experimental design.\u00a0Canadian Journal of Chemical Engineering,<\/em> 95, 2278 2017.<\/p>\nSilva, M. P.; Lastre-Acosta, A.M.; Mostafa, S.; McKay, G.; Linden, K.G.; Rosario-Ortiz, F.L.; Teixeira, A.C.S.C. Photochemical generation of reactive intermediates from urban-waste bio-organic substances under UV and solar irradiation.\u00a0Environmental Science and Pollution Research,<\/em> 24, 18470, 2017.<\/p>\nConcei\u00e7\u00e3o, D.S.; Gra\u00e7a, C.A.L.; Ferreira, D.P.; Fonseca, I.M.; Botelho do Rego, A.M.; Teixeira, A.C.S.C.; Vieira, L.F. Photochemical insights of TiO2 decorated mesoporous SBA-15 materials and their influence on the photodegradation of organic contaminants. Microporous and Mesoporous Materials<\/em>, 2017, 253, 203, 2017.<\/p>\nGra\u00e7a, C.A.L.; Velosa, A.C.; Teixeira, A.C.S.C. Role of Fe(III)-carboxylates in AMZ photodegradation: A response surface study based on a Doehlert experimental design. Chemosphere<\/em>, 184, 981, 2017.<\/p>\nFonseca, C.R.; Paiva, J.L.; Rodriguez, E.M.; Beltr\u00e1n, F.J.; Teixeira, A.C.S.C. Degradation of phenolic compounds in aqueous sucrose solutions by ozonation. Ozone: Science and Engineering<\/em>, 39 (4), 255, 2017.<\/p>\nSartori, J.A.S.; Ribeiro, K.; Teixeira, A. C. S. C.; Magri, N.; Mandro, J.; Aguiar, C.L. Sugarcane juice clarification by hydrogen peroxide: predictions with artificial neural networks. International Journal of Food Engineering<\/em>, 13 (2), 20160199, 2017.<\/p>\nGra\u00e7a, C.A.L.; Velosa, A.C.; Teixeira, A.C.S.C. Amicarbazone degradation by UVA-activated persulfate in the presence of hydrogen peroxide or Fe2+<\/sup>. Catalysis Today<\/em>, 280, 80, 2017.<\/p>\nConcei\u00e7\u00e3o, D.S.; Ferreira, D.P.; Gra\u00e7a, C.A.L.; J\u00falio, M.F.; Ilharco, L.M.; Velosa, A.C.; Santos, P.F.; Vieira Ferreira, L.F. Photochemical and photocatalytic evaluation of 1D titanate\/TiO2 <\/sub>based nanomaterials. Applied Surface Science<\/em>, 392, 418, 2017.<\/p>\nLopes, B.A.; Cardoso, P.E.C.; Teixeira, A.C.S.C. Photo-Fenton: an alternative for dental bleaching. Dental Materials<\/em>, 32(1), e58, 2016.<\/p>\nLastre-Acosta, A.M.; Parizi, M.P.S.; Teixeira, A.C.S.C. Water contamination by pharmaceuticals and hormones and advanced treatments. Brazilian Journal of Chemical Engineering, 32, 17, 2016.<\/p>\n
Guimar\u00e3es, A.K.V.; Nascimento, C.A.O.; Teixeira, A.C.S.C.; Chiavone Filho, O. Study of oil sludge characterization and oil extraction process. Sanitary and Environmental Engineering, 1, 1, 2016.<\/p>\n
Batista, A.P.S.\u037e Teixeira, A.C.S.C.\u037e Cooper, W.J.\u037e Cottrell, B.A. Correlating the chemical and spectroscopic characteristics of natural organic matter with the photodegradation of sulfamerazine. Water Research<\/em>, 93, 20, 2016.<\/p>\nSilva, O.; Honda, V.; Batista, A.P.S.; Teixeira, A.C.S.C.; Borrely, S.I. Degradation and acute toxicity removal of the antidepressant Fluoxetine (Prozac\u00ae) in aqueous systems by electron beam irradiation. Environmental Science and Pollution Research<\/em>, 23, 11927, 2016.<\/p>\nLastre-Acosta, A.M.\u037e Cruz-Gonz\u00e1lez, G.\u037e Nuevas-Paz, L.\u037e J\u00e1uregui-Haza, U.J.\u037e Teixeira, A.C.S.C. Ultrasonic degradation of sulfadiazine in aqueous solutions. Environmental Science and Pollution Research International<\/em>, 22, 918, 2015.<\/p>\nGomis, J.\u037e Carlos, L.\u037e Prevot, A.B.\u037e Teixeira, A.C.S.C.\u037e Mora, M.\u037e Amat, A.M.\u037e Vicente, R.\u037e Arques, A. Bio-based substances from urban waste as auxiliaries for solar photo-Fenton treatment under mild conditions: optimization of operational variables. Catalysis Today<\/em>, 240, 39, 2015.<\/p>\nSilva, M.P.\u037e Mostafa, S.\u037e Mckay, G.\u037e Rosario-Ortiz, F.L.\u037e Teixeira, A.C.S.C. Photochemical fate of amicarbazone in aqueous media: laboratory measurement and simulations. Environmental Engineering Science<\/em>, 32, 730, 2015.<\/p>\nPeres, J.C.G.\u037e de Silvio, U.\u037e Teixeira, A.C.S.C.\u037e Guardani, R.\u037e JR., A.S.V. Study of an annular photoreactor with tangential inlet and outlet: I.-fluid dynamics. Chemical Engineering and Technology<\/em>, 32, 311, 2015.<\/p>\nDa Silva, C.K.O.; Vianna, M.M.G.R.; Foletto, E.L.; Chiavone-Filho, O.; Nascimento, C.A.O. Optimizing phenanthrene and anthracene oxidation by sodium persulfate and Fe-modified diatomite using the response surface method. Water, Air and Soil Pollution<\/em>, 226, 88, 2015.<\/p>\nDe Castro Peixoto, A.L.\u037e Teixeira, A.C.S.C. Degradation of amicarbazone herbicide by photochemical processes. Journal of Photochemistry and Photobiology A: Chemistry<\/em>, 275, 54, 2014.<\/p>\nBatista, A.P.S.\u037e Pires, F.C.C.\u037e Teixeira, A.C.S.C. Photochemical degradation of sulfadiazine, sulfamerazine and sulfamethazine: Relevance of concentration and heterocyclic aromatic groups to degradation kinetics. Journal of Photochemistry and Photobiology A: Chemistry<\/em>, 286, 40, 2014.<\/p>\nBatista, A.P.S.\u037e Pires, F.C.C.\u037e Teixeira, A.C.S.C. The role of reactive oxygen species in sulfamethazine degradation using UV-based technologies and products identification. Journal of Photochemistry and Photobiology A: Chemistry<\/em>, 290, 77, 2014.<\/p>\nSilva, M.P.\u037e Batista, A.P.S.\u037e Borrely, S.I.\u037e Silva, V.H.O.\u037e Teixeira, A.C.S.C. Photolysis of atrazine in aqueous solution: role of process variables and reactive oxygen species. Environmental Science and Pollution Research<\/em>, 21, 12135, 2014.<\/p>\nFrade, V.M.F.\u037e Dias, M.\u037e Teixeira, A.C.S.C.\u037e Palma, M.S.A. Environmental contamination by fluoroquinolones. Brazilian Journal of Pharmaceutical Sciences<\/em>, 50, 41, 2014.<\/p>\nSilva, S.S.; Chiavone-Filho, O.; de Barros Neto, E.L.; Mota, A.L.N.; Foletto, E.L.; Nascimento, C.A.O. Photodegradation of non-ionic surfactant with different ethoxy groups in aqueous effluents by the photo-Fenton process. Environmental Technology<\/em>, 35, 1, 2014.<\/p>\nMota, A.L.N.; Chiavone-Filho, O.; da Silva, Syllos S.; Foletto, E.L.; de Moraes, J.E.F.; Nascimento C.A.O. Application of artificial neural network for modeling of phenol mineralization by photo-Fenton process using a multi-lamp reactor. Water Science and Technology<\/em>, 69, 768, 2014.<\/p>\nAguiar L.G.; Da Silva C.K.O.; Ciriaco, M.F.; Vianna, M.M.G.R.; Nascimento C.A.O.; Chiavone-Filho, O.; Pereira C.G.; Foletto E.L. Remediation of solid matrix containing anthracene and phenanthrene by permanganate oxidant. Global NEST Journal<\/em>, 16, 393, 2014.<\/p>\nSalvadori, M.R.; Ando, R.A.; Nascimento C.A.O.; B. Bioremediation from wastewater and extracellular synthesis of copper nanoparticles by the fungus Trichoderma koningiopsis<\/em>. Journal of Environmental Science and Health. Part A, Toxic Hazardous Substances and Environmental Engineering<\/em>, 49, 1286, 2014.<\/p>\nHewer, Thiago L.R.; Machado, B.C.; Freire, Renato Sanches; Guardani, R. Ag3<\/sub>PO4<\/sub> sunlight-induced photocatalyst for degradation of phenol. RSC Advances: an International Journal to Further the Chemical Sciences<\/em>, 4, 34674, 2014.<\/p>\nLoures, C.C.A.\u037e Alcantara, M.A.\u037e Iz\u00e1rio Filho, E.J.\u037e Teixeira, A.C.S.C.\u037e Silva, F.T.\u037e Paiva, T.C.B.\u037e Samanamud, G.R.L. Advanced oxidative degradation processes: fundamentals and applications. International Review of Chemical Engineering<\/em>, 5, 102, 2013.<\/p>\nPaz, D.S.; Foletto, E.L.; Bertuol, D.A.; Jahn, S.L.; Collazzo, G.C.; da Silva, S.S.; Chiavone-Filho, O.; Nascimento C.A.O. CuO\/ZnO coupled oxide films obtained by the electrodeposition technique and their photocatalytic activity in phenol degradation under solar irradiation. Water Science and Technology<\/em>, 68, 1031, 2013.<\/p>\nUna, A.J.; Nascimento C.A.O.; Foletto, E.L.; de Moraes, J.E.F.; Chiavone-Filho, O. Photo-Fenton degradation of phenol, 2,4-dichlorophenoxyacetic acid and 2,4-dichlorophenol mixture in saline solution using a falling-film solar reactor. Environmental Technology<\/em>, 1, 1, 2013.<\/p>\nAnchieta, C.G.; Sallet, D.; Foletto, E.L.; da Silva, S.S.; Chiavone-Filho, O.; Nascimento C.A.O. Synthesis of ternary zinc spinel oxides and their application in the photodegradation of organic pollutant. Ceramics International<\/em>, 40, 4173, 2013.<\/p>\nRamos, B.\u037e Farah, J.P.S.\u037e Teixeira, A.C.S.C. Estimating reaction constants by ab initio<\/em> molecular modeling: a study on the oxidation of phenol to catechol and hydroquinone in advanced oxidation processes. Brazilian Journal of Chemical Engineering<\/em>, 29, 113, 2012.<\/p>\nNogueira, K.R.B.\u037e Nascimento, C.A.O.\u037e Guardani, R.\u037e Teixeira, A.C.S.C. Feasibility study of solar reactor for phenol treatment by the photo-Fenton process in aqueous solution. Chemical Engineering and Technology<\/em>, 35, 2125, 2012.<\/p>\nSilva, S.S.; Chiavone-Filho, O.; Barros Neto, E.L.; Nascimento, C.A.O. Integration of processes induced air flotation and photo-Fenton for treatment of residual waters contaminated with xylene. Journal of Hazardous Materials<\/em>, 199, 151, 2012.<\/p>\nDe Luna, A.J.; Luna, A.J.; Machulek JR., A.; de Moraes, J.E.F.; Nascimento, C.A.O.; Chiavone-Filho, O. Photo-Fenton oxidation of phenol and organochlorides (2,4-DCP and 2,4-D) in aqueous alkaline medium with high chloride concentration. Journal of Environmental Management<\/em>, 111, 10, 2012.<\/p>\nGracioso, L.H.; Avanzi, I.R.; Baltazar, M.P.G.; Martins-Pinheiro, M.; Karolski, B.; Mendes, M.A.; Menck, C.F.M.; Nascimento, C.A.O.; Perpetuo, E.A. Proteome analysis of phenol-degrading achromobacter sp. strain C-1, isolated from an industrial area. Current Proteomics<\/em>, 9, 280, 2012.<\/p>\nPerpetuo, E.A.; Nascimento, C.A.O.; Baltazar, M.P.G.; Gracioso, L.H.; Avanzi, I.R.; Silva, D.N. Phenol biodegradation by a microbial consortium: application of artificial neural network (ANN) modelling. Environmental Technology<\/em>, 1, 1, 2011.<\/p>\nGiroto, J.A.\u037e Teixeira, A.C.S.C.\u037e Nascimento, C.A.O.\u037e Guardani, R. Degradation of poly(ethylene glycol) in aqueous solution by photo-Fenton and H2<\/sub>O2<\/sub>\/UV processes. Industrial and Engineering Chemistry Research<\/em>, 49, 3200, 2010.<\/p>\nCatorceno, L.L.C.\u037e Nogueira, K.R.B.\u037e Teixeira, A.C.S.C. Treatment of aqueous effluents containing phenol by the O3<\/sub>, O3<\/sub>-UV, and O3<\/sub>-H2<\/sub>O2<\/sub> processes: experimental study and neural network modeling. Separation Science and Technology<\/em>, 45, 1521, 2010.<\/p>\nMuranaka, C.T.; Julcour, C.; Wilhelm, A.M.; Delmas, H.; Nascimento, C.A.O. Regeneration of activated carbon by (photo)-Fenton oxidation. Industrial and Engineering Chemistry Research<\/em>, 49, 989, 2010.<\/p>\nBorges, F.J.; Balmann, H.; Guardani, R. Modeling electrodialysis and photochemical process for their integration in saline wastewater treatment. Brazilian Journal of Chemical Engineering<\/em>, 27, 473, 2010.<\/p>\nRamos, B.\u037e Teixeira, A.C.S.C. Molecular-Scale modeling of the degradation of phenol in advanced oxidation processes reaction media. Computer-Aided Chemical Engineering<\/em>, 27, 285, 2009.<\/p>\nNogueira, K.R.B.\u037e Teixeira, A.C.S.C.\u037e Nascimento, C.A.O.\u037e Guardani, R. Use of solar energy in the treatment of water contaminated with phenol by photochemical processes. Brazilian Journal of Chemical Engineering<\/em>, 25, 671, 2008.<\/p>\n
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