{"id":17,"date":"2017-02-06T22:58:45","date_gmt":"2017-02-06T21:58:45","guid":{"rendered":"http:\/\/blog.uclm.es\/sustertech4ch\/?page_id=17"},"modified":"2022-10-25T15:47:44","modified_gmt":"2022-10-25T15:47:44","slug":"6-resultados","status":"publish","type":"page","link":"https:\/\/blog.uclm.es\/sustertech4ch\/6-resultados\/","title":{"rendered":"6. Resultados"},"content":{"rendered":"

Publicaciones derivadas del proyecto<\/strong><\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 3<\/p>\n

\u2022 M. Mu\u00f1oz-Morales, M. Braojos, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Remediation of soils polluted with lindane using surfactant-aided soil washing and electrochemical oxidation. Journal of Hazardous Materials, 339 (2017) 232-238.
\n\u2022 M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares and M.A. Rodrigo. Anodic oxidation for the remediation of soils polluted with perchloroethylene. Journal of Chemical Technology and Biotechnology. 84 (2019) 288-294
\n\u2022 S. Cotillas, C. S\u00e1ez, P. Ca\u00f1izares, I. Cretescu, M.A. Rodrigo. Removal of 2,4-D herbicide in soils using a combined process based on washing and adsorption electrochemically assisted. Separation and Purification Technology, 194 (2018) 19-25.
\n\u2022 S. Rodrigo, C. Saez, P. Ca\u00f1izares, M. A. Rodrigo. Reversible electrokinetic adsorption barriers for the removal of organochlorine herbicide from spiked soils. Science of the Total Environment, 40\u2013641 (2018) 629-636.
\n\u2022 C. Carvalho de Almeida, M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, C.A. Mart\u00ednez-Huitle, M. A. Rodrigo. Integrating ZVI-dehalogenation into an electrolytic soil-washing cell. Separation and Purification Technology, 2019, 211, 28-34.
\n\u2022 C. Carvalho de Almeida, M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, C.A. Mart\u00ednez-Huitle, M. A. Rodrigo. Electrolysis with diamond anodes of the effluents of a combined soil washing \u2013 ZVI dechlorination process. Journal of Hazardous Materials, 2019, 369, 577-583
\n\u2022 F.L. Silva, M.R. V. Lanza, C. S\u00e1ez, M.A Rodrigo. Electrochemical dewatering for the removal of hazardous species from sludge. Journal of Environmental Management, 233 (2019), 768-773
\n\u2022 Karacali, M. Mu\u00f1oz-Morales, S., Kalkan, B.K. K\u00f6rbahti, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. A comparison of the electrolysis of soil washing wastes with active and non-active electrodes. Chemosphere, 225 (2019), 19-26<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 4<\/p>\n

\u2022 S. Barba, J. Villase\u00f1or, M.A. Rodrigo, P. Ca\u00f1izares. Effect of the polarity reversal frequency in the electrokinetic-biological remediation of oxyfluorfen polluted soil. Chemosphere 177 (2017) 120-127
\n\u2022 V. S\u00e1nchez, F.J. L\u00f3pez-Bellido, P. Ca\u00f1izares, L. Rodr\u00edguez Assessing the phytoremediation potential of crop and grass plants for atrazine-spiked soils, Chemosphere, 185 (2017) 119-126
\n\u2022 V. S\u00e1nchez, F.J. L\u00f3pez-Bellido, P. Ca\u00f1izares, L. Rodr\u00edguez. Can electrochemistry enhance the removal of organic pollutants by phytoremediation?, Journal of Environmental Management, 225 (2018) 280-287.
\n\u2022 F.L. Souza, C. S\u00e1ez, M.R.V. Lanza, P. Ca\u00f1izares, M.A. Rodrigo. Removal of chlorsulfuron and 2,4-D from spiked soil using reversible electrokinetic adsorption barriers. Separation and Purification Technology 178 (2017) 147\u2013153
\n\u2022 S. Rodrigo, C. Saez, P. Ca\u00f1izares, M. A. Rodrigo. Reversible electrokinetic adsorption barriers for the removal of organochlorine herbicide from spiked soils. Science of The Total Environment, 40\u2013641 (2018) 629-636.
\n\u2022 J. Vidal, C. Saez, P. Ca\u00f1izares, V. Navarro, M. A. Rodrigo. ZVI \u2013 Reactive barriers for the remediation of soils polluted with clopyralid: Are they really Worth? Chemical Engineering Journal, 350 (2018) 100-107.
\n\u2022 \u00c1. Yustres, R. L\u00f3pez-Vizca\u00edno, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo, V. Navarro. Water transport in electrokinetic remediation of unsaturated kaolinite. Experimental and numerical study. Separation and Purification Technology, 192 (2018) 196-204.
\n\u2022 R. L\u00f3pez-Vizca\u00edno, A. Yustres, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo, V. Navarro. Effect of polarity reversal on the enhanced electrokinetic remediation of 2,4-D-polluted soils: A numerical study Electrochimica Acta, en imprenta (2017)
\n\u2022 R. L\u00f3pez Vizca\u00edno, A. Yustres, L. Asensio, C. Saez, P. Ca\u00f1izares, M.A. Rodrigo, V. Navarro. Enhanced electrokinetic remediation of polluted soils by anolyte pH conditioning. Chemosphere, 199 (2018) 477-485
\n\u2022 S. Barba, J. Villase\u00f1or, M.A. Rodrigo, P. Ca\u00f1izares. Can electro-bioremediation of polluted soils perform as a self-sustainable process? J. Appl. Electrochem. 48, (2018) 579-588.
\n\u2022 Carvela, M., Barba, S., Villase\u00f1or, J., Rodrigo, M.A., Ca\u00f1izares, P. Improvement of the electro-bioremediation process of a non-polar herbicide polluted soil by surfactant addition. Science of the Total Environment, 650, 1061-1968, 2019.
\n\u2022 Barba, S., Villase\u00f1or, J., Rodrigo, M.A., Ca\u00f1izares, P. Strategies for the Electrobioremediation of Oxyfluorfen Polluted Soils. Electrochimica Acta, 297,137-144, 2019.
\n\u2022 Barba, S., Oca\u00f1a, H., Villase\u00f1or, J., Rodrigo, M. A., Ca\u00f1izares, P., Electrobioremediation of oxyfluorfen polluted soil by means of a fixed-bed permeable biological barrier, Water. Air and Soil Pollution (2019) 230:126
\n\u2022 Barba, S., Carvela, M., Villase\u00f1or, J., Rodrigo, M. A., Ca\u00f1izares, P, Fixed-bed biological barrier coupled with electrokinetics for the in-situ electrobioremediation of 2,4-dichlorophenoxyacetic acid polluted soil, J. Chemical. Technology and Biotechnology, (2019) DOI 10.1002\/jctb.6079.
\n\u2022 J. Vidal, M. Carvela, C. Saez, P. Ca\u00f1izares, V. Navarro, R. Salazar, M.A. Rodrigo. Testing different strategies for the remediation of soils polluted with lindane. Chemical Engineering Journal, 381 (2020).
\n\u2022 Barba, S., Villase\u00f1or, J., Rodrigo, M.A., Ca\u00f1izares, P. Biostimulation versus bioaugmentation for the electro-bioremediation of 2,4-dichlorophenoxyacetic acid polluted soils (2021) Journal of Environmental Management, 277, art. no. 111424
\n\u2022 Barba, S., Villase\u00f1or, J., Rodrigo, M.A., Ca\u00f1izares, P. Towards the optimization of electro-bioremediation of soil polluted with 2,4-dichlorophenoxyacetic acid.(2020) Environmental Technology and Innovation, 20, art. no. 101156
\n\u2022 M. Barbosa Ferreira, F. L. Souza, M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, C.A. Mart\u00ednez-Huitle, M. A. Rodrigo. Clopyralid degradation by AOPs enhanced with zero valent iron. Journal of Hazardous Materials 39215 (2020)
\n\u2022 M. Barbosa Ferreira, F. L. Souza, M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, C.A. Mart\u00ednez-Huitle, M. A. Rodrigo. Improving biotreatability of hazardous effluents combining ZVI, electrolysis and photolysis Science of The Total Environment, 71315 (2020).
\n\u2022 V. S\u00e1nchez, F.J. L\u00f3pez-Bellido, M.A. Rodrigo, F.J. Fern\u00e1ndez, L. Rodr\u00edguez, A mesocosm study of electrokinetic-assisted phytoremediation of atrazine-polluted soils, Separation and Purification Technology 233 (2020) 116044
\n\u2022 V. S\u00e1nchez, F.J. L\u00f3pez-Bellido, P. Ca\u00f1izares, J. Villase\u00f1or, L. Rodr\u00edguez, Scaling up the electrokinetic-assisted phytoremediation of atrazine-polluted soils using reversa lof electrode polarity: A mesocosm study, Journal of Environmental Management 255 (2020) 109806.
\n\u2022 V. S\u00e1nchez, F.J. L\u00f3pez-Bellido, M.A. Rodrigo, L. Rodr\u00edguez, Enhancing the removal of atrazine from soils by electrokinetic-assisted phytoremediation using ryegrass (Lolium perenne L.), Chemosphere, 232 (2019) 204-212.
\n\u2022 V. S\u00e1nchez,F.J. L\u00f3pez-Bellido, M.A. Rodrigo, L. Rodr\u00edguez. Electrokinetic-assisted phytoremediation of atrazine: Differences between electrode and interelectrode soil sections, Separation and Purification Technology, 211 (2019) 19-27.<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 5<\/p>\n

\u2022 S. Cotillas, L. Ca\u00f1izares, M. Mu\u00f1oz, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Is it really important the addition of salts for the electrolysis of wastewater soil washing effluents? Electrochimica acta, 246, 372-379 (2017)
\n\u2022 P.T. Almaz\u00e1n-S\u00e1nchez, S. Cotillas, C. S\u00e1ez, M.J. Solache-R\u00edos,V. Mart\u00ednez-Miranda, P. Ca\u00f1izares, I. Linares-Hern\u00e1ndez,M.A. Rodrigo. Removal of pendimethalin from soil washing effluents using electrolytic and electro-irradiated technologies based on diamond anodes. Applied Catalysis B: Environmental 213 (2017) 190\u2013197.
\n\u2022 J.M. Aquino, D.W. Miwa, M.A. Rodrigo, A.J. Motheo Treatment of actual effluents produced in the manufacturing of atrazine by a photo-electrolytic process. Chemosphere 172 (2017) 185-192
\n\u2022 J. F. P\u00e9rez, J. Llanos, C. S\u00e1ez, C. L\u00f3pez, P. Ca\u00f1izares, M. A. Rodrigo. A microfluidic flow-through electrochemical reactor for wastewater treatment: A proof-of-concept. Electrochemistry Communications 82 (2017) 85-88.
\n\u2022 J. F. P\u00e9rez, J. Llanos, C. S\u00e1ez, C. L\u00f3pez, P. Ca\u00f1izares, M. A. Rodrigo. The jet aerator as oxygen supplier for the electrochemical generation of H2O2. Electrochimica Acta 246 (2017) 466-474.
\n\u2022 M. Mu\u00f1oz, J. Llanos, A. Raschitor, P. Ca\u00f1izares, M. A. Rodrigo. Electrocoagulation as the Key for an Efficient Concentration and Removal of Oxyfluorfen from Liquid Wastes. Industrial and Engineering Chemistry Research 56 (11) (2017) 3091-3097.
\n\u2022 A. Raschitor, J. Llanos, P. Ca\u00f1izares, M. A. Rodrigo. Novel integrated electrodialysis\/electro-oxidation process for the efficient degradation of 2,4-dichlorophenoxyacetic acid. Chemosphere 182 (2017) 85-89.
\n\u2022 M.B. Carboneras, J. Villase\u00f1or, F. J. Fernandez-Morales. Modelling aerobic biodegradation of atrazine and 2,4-dichlorophenoxy acetic acid by mixed-cultures. Bioresource Technology 243 (2017) 1044-1050
\n\u2022 M.B. Carboneras, P. Ca\u00f1izares, M.A. Rodrigo, J. Villase\u00f1or, F.J. Fernandez-Morales. Improving biodegradability of soil washing effluents using anodic oxidation. Bioresource Technology, 252 (2018) 1-6
\n\u2022 Carboneras Contreras, M.B., Villase\u00f1or Camacho, J., Fern\u00e1ndez-Morales, F.J., Ca\u00f1izares, P.C., Rodrigo Rodrigo, M.A. Biodegradability improvement and toxicity reduction of soil washing effluents polluted with atrazine by means of electrochemical pre-treatment: Influence of the anode material (2020) Journal of Environmental Management, 255, art. no. 109895.
\n\u2022 Carboneras Contreras, M.B., Fourcade, F., Assadi, A., Amrane, A., Fernandez-Morales, F.J. Electro Fenton removal of clopyralid in soil washing effluents (2019) Chemosphere, 237, art. no. 124447
\n\u2022 Carboneras, M.B., Villase\u00f1or, J., Fern\u00e1ndez, F.J., Rodrigo, M.A., Ca\u00f1izares, P. Selection of anodic material for the combined electrochemical-biological treatment of lindane polluted soil washing effluents. (2020) Journal of Hazardous Materials, 384, art. no. 121237
\n\u2022 Carboneras, M.B., Rodrigo, M.A., Canizares, P., Villasenor, J., Fernandez-Morales, F.J. Removal of oxyfluorfen from polluted effluents by combined bio-electro processes (2020) Chemosphere, 240, art. no. 124912, .
\n\u2022 Carboneras, M.B., Rodrigo, M.A., Canizares, P., Villase\u00f1or, J., Fernandez-Morales, F.J. Electro-irradiated technologies for clopyralid removal from soil washing effluents (2019) Separation and Purification Technology, 227, art. no. 115728,
\n\u2022 Carboneras, M.B., Villase\u00f1or, J., Fern\u00e1ndez-Morales, F.J., Rodrigo, M.A., Ca\u00f1izares, P. Biological treatment of wastewater polluted with an oxyfluorfen-based commercial herbicide(2018) Chemosphere, 213, pp. 244-251.
\n\u2022 Luis Fernando Leon-Fernandez, Jose Villasenor, Luis Rodriguez, Pablo Canizares, Manuel Andres Rodrigo, Francisco Jes\u00fas Fernandez-Morales. Dehalogenation of 2,4-Dichlorophenoxyacetic acid by means of bioelectrochemical systems, Journal of Electroanalytical Chemistry 854 (2019) 113564
\n\u2022 Leon-Fernandez, L.F., Rodrigo, M.A., Villase\u00f1or, J., Fernandez-Morales, F.J. Bio-electrocatalytic dechlorination of 2,4-dichlorophenol. Effect of pH and operational configuration (2021) Electrochimica Acta, 367, art. no. 137456
\n\u2022 Leon-Fernandez, L.F., Rodrigo, M.A., Villase\u00f1or, J., Fernandez-Morales, F.J. Electrocatalytic dechlorination of 2,4-dichlorophenol in bioelectrochemical systems (2020) Journal of Electroanalytical Chemistry, 876, art. no. 114731
\n\u2022 J. Llanos, A. Raschitor, P. Ca\u00f1izares, M.A. Rodrigo, Exploring the applicability of a combined electrodialysis\/electro-oxidation cell for the degradation of 2,4-dichlorophenoxyacetic acid, Electrochimica Acta, 269 (2018), 415-421
\n\u2022 M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo. A new strategy for the electrolytic removal of organics based on adsorption onto granular activated carbon. Electrochemistry Communications, 90 (2018) 47-50
\n\u2022 S. Cotillas, E. Lacasa, C.S\u00e1ez, P.Ca\u00f1izares, M.A. Rodrigo. Electrolytic and electro-irradiated technologies for the removal of chloramphenicol in synthetic urine with diamond anodes. Water Research, 128 (2018).383-392
\n\u2022 S. Cotillas, E. Lacasa, C. S\u00e1ez, P.Ca\u00f1izares, M.A. Rodrigo. Removal of pharmaceuticals from the urine of polymedicated patients: A first approach. Chemical Engineering Journal, 331 (2018) 606-614
\n\u2022 S. Cotillas, E. Lacasa, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Disinfection of urine by conductive-diamond electrochemical oxidation. Applied Catalysis B: Environmental, 229 (2018) 63-70
\n\u2022 I.F.Mena, S. Cotillas, E.D\u00edaz, C.S\u00e1ez, \u00c1.F.Mohedano, M.A. Rodrigo. Influence of the supporting electrolyte on the removal of ionic liquids by electrolysis with diamond anodes. Catalysis Today, 313 (2018) 203-210.
\n\u2022 I.F. Mena, S. Cotillas, E. D\u00edaz, C. S\u00e1ez, J.J. Rodr\u00edguez, P. Ca\u00f1izares, \u00c1.F. Mohedano, M.A. Rodrigo. Electrolysis with diamond anodes: Eventually, there are refractory species! Chemosphere, 195 (2018) 771-776
\n\u2022 I.F.Mena, S. Cotillas, E.D\u00edaz, C.S\u00e1ez, \u00c1.F.Mohedano, M.A. Rodrigo. Sono- and photoelectrocatalytic processes for the removal of ionic liquids based on the 1-butyl-3-methylimidazolium cation. Journal of Hazardous Materials, en prensa DOI: 10.1016\/j.jhazmat.2017.12.015.
\n\u2022 J.F. P\u00e9rez, J. Llanos, C. S\u00e1ez, C. L\u00f3pez, P. Ca\u00f1izares, M.A. Rodrigo. The pressurized jet aerator: A new aeration system for high-performance H2O2 electrolyzers. Electrochemistry Communications, 89 (2018) 19-22
\n\u2022 J.F. P\u00e9rez, S. Sabatino, A. Galia, M.A. Rodrigo, J. Llanos, C. S\u00e1ez, O. Scialdone Effect of air pressure on the electro-Fenton process at carbon felt electrodes Electrochimica Acta. 273 (2018) 447-453
\n\u2022 J. F. P\u00e9rez, J. Llanos, C. S\u00e1ez, C. L\u00f3pez, P. Ca\u00f1izares, M. A. Rodrigo. Development of an innovative approach for low-impact wastewater treatment: A microfluidic flow-through electrochemical reactor. Chemical Engineering Journal, 351 (2018) 766-772
\n\u2022 J.F. P\u00e9rez, J. Llanos, C. S\u00e1ez, C. L\u00f3pez, P. Ca\u00f1izares, M.A. Rodrigo. On the design of a jet-aerated microfluidic flow-through reactor for wastewater treatment by electro-Fenton. Separation and Purification Technology, In press (2018) https:\/\/doi.org\/10.1016\/j.seppur.2018.04.021
\n\u2022 M. Rodr\u00edguez, M. Mu\u00f1oz-Morales, J.F. P\u00e9rez, C. S\u00e1ez, P. Ca\u00f1izares, C.E. Barrera-D\u00edaz, M.A. Rodrigo. Toward the Development of Efficient Electro-Fenton Reactors for Soil Washing Wastes through Microfluidic Cells. Industrial & engineering Chemistry Research. En prensa (2018). DOI 10.1021\/acs.iecr.8b02215.
\n\u2022 J. Llanos, I. Moraleda, C. S\u00e1ez, M.A. Rodrigo, P. Ca\u00f1izares. Optimization of a cell for the electrochemical synergistic production of peroxoacetic acid. Electrochimica Acta, Volume 260, 10 (2018) 177-183
\n\u2022 Acosta-Santoyo, G., Llanos, J., Raschitor, A., Bustos, E., Ca\u00f1izares, P., Rodrigo, M.A. Performance of ultrafiltration as a pre-concentration stage for the treatment of oxyfluorfen by electrochemical BDD oxidation (2020) Separation and Purification Technology, 237, art. no. 116366.
\n\u2022 Raschitor, A., Llanos, J., Rodrigo, M.A., Ca\u00f1izares, P. Is it worth using the coupled electrodialysis\/electro-oxidation system for the removal of pesticides? Process modelling and role of the pollutant (2020) Chemosphere, 246, art. no. 125781
\n\u2022 Llanos, J., Moraleda, I., S\u00e1ez, C., Rodrigo, M.A., Ca\u00f1izares, P. Reactor design as a critical input in the electrochemical production of peroxoacetic acid (2019) Journal of Chemical Technology and Biotechnology, 94 (9), pp. 2955-2960
\n\u2022 Llanos, J., Moraleda, I., S\u00e1ez, C., Rodrigo, M.A., Ca\u00f1izares, P. Electrochemical production of perchlorate as an alternative for the valorization of brines (2019) Chemosphere, 220, pp. 637-643
\n\u2022 Moraleda, I., Oturan, N., Saez, C., Llanos, J., Rodrigo, M.A., Oturan, M.A. A comparison between flow-through cathode and mixed tank cells for the electro-Fenton process with conductive diamond anode (2020) Chemosphere, 238, art. no. 124854,Cited 8 times. DOI: 10.1016\/j.chemosphere.2019.124854
\n\u2022 Raschitor, A., Llanos, J., Rodrigo, M.A., Ca\u00f1izares, P. Combined electrochemical processes for the efficient degradation of non-polar organochlorine pesticides (2019) Journal of Environmental Management, 248, art. no. 109289
\n\u2022 Acosta-Santoyo, G., Raschitor, A., Bustos, E., Llanos, J., Ca\u00f1izares, P., Rodrigo, M.A. Electrochemically assisted dewatering for the removal of oxyfluorfen from a coagulation\/flocculation sludge (2020) Journal of Environmental Management, 258, art. no. 110015
\n\u2022 Raschitor, A., Llanos, J., Ca\u00f1izares, P., Rodrigo, M.A. Improved electrolysis of colloid-polluted wastes using ultrasounds and electrocoagulation (2020) Separation and Purification Technology, 231, art. no. 115926
\n\u2022 D. Dionisio, A.J. Motheo, C. S\u00e1ez, M.A. Rodrigo Effect of the electrolyte on the electrolysis and photoelectrolysis of synthetic methyl paraben polluted wastewater. Separation and Purification Technology, 2018 (2019) 201-209.
\n\u2022 D. Dionisio, A.J. Motheo, C. S\u00e1ez, M.A. Rodrigo Effects of ultrasound irradiation on the electrochemical treatment of wastes containing micelles. Applied Catalysis B: Environmental,248 (2019), 108-114.
\n\u2022 D. Dionisio, A.J. Motheo, C. S\u00e1ez, M.A. Rodrigo Competitive anodic oxidation of methyl paraben and propylene glycol: keys to understand the process. ChemElectroChem, 6 (2019) 771-778.
\n\u2022 D. Dionisio, A.J. Motheo, C. S\u00e1ez, M.A. Rodrigo. Coupling ultrasound to the electrochemical oxidation of methyl-paraben synthetic wastewater: effect of frequency and supporting electrlyte. ChemElectroChem, 6(2019) 1199-1205.
\n\u2022 Dionisio, D., Santos, L.H.E., Rodrigo, M.A., Motheo, A.J. Electro-oxidation of methyl paraben on DSA\u00ae-Cl2: UV irradiation, mechanistic aspects and energy consumption (2020) Electrochimica Acta, 338, art. no. 135901, Cited 3 times. DOI: 10.1016\/j.electacta.2020.135901
\n\u2022 S. Cotillas, E. Lacasa, M. Herraiz-Carbon\u00e9, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo. Innovative photoelectrochemical cell for the removal of CHCs from soil washing wastes. Separation and Purification Technology, 2020, 230.
\n\u2022 I. S\u00e1nchez-Montes, J.F. P\u00e9rez, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo, Jos\u00e9 M. Aquino. Assessing the performance of electrochemical oxidation using DSA\u00ae and BDD anodes in the presence of UVC light. Chemosphere, 2020, 238.
\n\u2022 G.O. S. Santos, I.M. D. Gonzaga, K.I.B. Eguiluz, G.R. Salazar-Banda, C. S\u00e1ez, M.A. Rodrigo. Improving biodegradability of clopyralid wastes by photoelectrolysis: The role of the anode material. Journal of Electroanalytical Chemistry, 8641 (2020)
\n\u2022 G.O. S. Santos, I.M. D. Gonzaga, K.I.B. Eguiluz, G.R. Salazar-Banda, C. S\u00e1ez, M.A. Rodrigo. Understanding the electrolytic generation of sulfate and chlorine oxidative species with different boron-doped diamond anodes. Journal of Electroanalytical Chemistry, 85715 (2020)
\n\u2022 G.O. S. Santos, I.M. D. Gonzaga, K.I.B. Eguiluz, G.R. Salazar-Banda, C. S\u00e1ez, M.A. Rodrigo. Understanding the electrolytic generation of sulfate and chlorine oxidative species with different boron-doped diamond anodes. Journal of Electroanalytical Chemistry, 85715 (2020)
\n\u2022 G.O. S. Santos, I.M. D. Gonzaga, K.I.B. Eguiluz, G.R. Salazar-Banda, C. S\u00e1ez, M.A. Rodrigo. Photoelectrolysis of clopyralid wastes with a novel laser-prepared MMO-RuO2TiO2 anode. Chemosphere, 244 (2020)
\n\u2022 Gonzaga, I.M.D., D\u00f3ria, A.R., Vasconcelos, V.M., Souza, F.M., dos Santos, M.C., Hammer, P., Rodrigo, M.A., Eguiluz, K.I.B., Salazar-Banda, G.R. Microwave synthesis of Ti\/(RuO2)0.5(IrO2)0.5 anodes: Improved electrochemical properties and stability (2020) Journal of Electroanalytical Chemistry, 874, art. no. 114460, DOI: 10.1016\/j.jelechem.2020.114460
\n\u2022 M.A. Mamelkina, M. Herraiz-Carbon\u00e9, S. Cotillas, E. Lacasa, C. S\u00e1ez, R. Tuunila, M. Sillanp\u00e4\u00e4, A. H\u00e4kkinen, M.A. Rodrigo. Treatment of mining wastewater polluted with cyanide by coagulation processes: A mechanistic study. Separation and Purification Technology, 237 (2020) 116345.
\n\u2022 E. Lacasa, P. Ca\u00f1izares, F.C. Walsh, M.A. Rodrigo, C. Ponce-de-Le\u00f3n. Removal of methylene blue from aqueous solutions using an Fe2+ catalyst and in-situ H2O2 generated at gas diffusion cathodes. Electrochimica Acta, 308 (2019) 45-53.
\n\u2022 Souza, F.L., S\u00e1ez, C., Ca\u00f1izares, P., Rodrigo, M.A. Improving photolytic treatments with electrochemical technology (2020) Separation and Purification Technology, 235, art. no. 116229, Cited 6 times.DOI: 10.1016\/j.seppur.2019.116229
\n\u2022 Santos, G.D.O.S., Eguiluz, K.I.B., Salazar-Banda, G.R., Saez, C., Rodrigo, M.A. Testing the role of electrode materials on the electro-Fenton and photoelectro-Fenton degradation of clopyralid (2020) Journal of Electroanalytical Chemistry, 871, art. no. 114291, . Cited 4 times. DOI: 10.1016\/j.jelechem.2020.114291
\n\u2022 Cotillas, S., Clematis, D., Ca\u00f1izares, P., Carpanese, M.P., Rodrigo, M.A., Panizza, M. Degradation of dye Procion Red MX-5B by electrolytic and electro-irradiated technologies using diamond electrodes (2018) Chemosphere, 199, pp. 445-452. Cited 27 times. DOI: 10.1016\/j.chemosphere.2018.02.001
\n\u2022 Cotillas, S., Llanos, J., Ca\u00f1izares, P., Clematis, D., Cerisola, G., Rodrigo, M.A., Panizza, M. Removal of Procion Red MX-5B dye from wastewater by conductive-diamond electrochemical oxidation (2018) Electrochimica Acta, 263, pp. 1-7. Cited 59 times.DOI: 10.1016\/j.electacta.2018.01.052<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 6<\/p>\n

\u2022 M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. A new electrochemically-based process for the removal of perchloroethylene from gaseous effluents. Chemical Engineering Journal, 361 (2019) 609-614.
\n\u2022 M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Enhanced electrolytic treatment for the removal of clopyralid and lindane. Chemosphere, 234 (2019) 132-138.
\n\u2022 M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo. Improvement of electrochemical oxidation efficiency through combination with adsorption processes Journal of Environmental Management, 26215 (2020).
\n\u2022 Gonz\u00e1lez-P\u00e9rez, O., Mu\u00f1oz-Morales, M., Souza, F.L., S\u00e1ez, C., Ca\u00f1izares, P., Rodrigo, M.A. Jet electro-absorbers for the treatment of gaseous perchloroethylene wastes (2020) Chemical Engineering Journal, 395, art. no. 125096, . Cited 2 times. DOI: 10.1016\/j.cej.2020.125096
\n\u2022 Casta\u00f1eda-Ju\u00e1rez, M., Mu\u00f1oz-Morales, M., Souza, F.L., S\u00e1ez, C., Ca\u00f1izares, P., Almaz\u00e1n-S\u00e1nchez, P.T., Linares-Hern\u00e1ndez, I., Rodrigo, M.A. Electro-absorbers: A comparison on their performance with jet-absorbers and absorption columns (2020) Catalysts, 10 (6), art. no. 653, pp. 1-14. DOI: 10.3390\/catal10060653<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 7<\/p>\n

\u2022 R. Lopez-Vizca\u00edno, E. Mena, M. Millan, M.A. Rodrigo, Justo Lobato. Performance of a vanadium redox flow battery for the storage of electricity produced in photovoltaic solar panels. Renewable Energy 114 (2017) 1123-1133. http:\/\/dx.doi.org\/10.1016\/j.renene.2017.07.118
\n\u2022 J. Lobato, E. Mena and M. Mill\u00e1n. Improving a Redox Flow Battery Working under Realistic Conditions by Using of Graphene Based Nanofluids. ChemistrySelect (2017), 2, 8446-8450.
\n\u2022 E. Mena, R. L\u00f3pez\u2010Vizca\u00edno, M. Mill\u00e1n, P. Ca\u00f1izares, J. Lobato, M.A. Rodrigo. Vanadium redox flow batteries for the storage of electricity produced in wind turbines. Int J Energy Res. 42 (2018) 720\u2013730. https:\/\/doi.org\/10.1002\/er.3858
\n\u2022 M. Mill\u00e1n, M.A. Rodrigo, C.M. Fern\u00e1ndez-Marchante, S. D\u00edaz-Abad, M.C. Pel\u00e1ez, P.Ca\u00f1izares, and J.Lobato. Towards the sustainable powering of the electrocoagulation of wastewater through the use of Solar-Vanadium Redox Flow Battery: a first approach. Electrochimica Acta (2018) 270, 14-21.
\n\u2022 M. Mill\u00e1n, M. A. Rodrigo, C. M. Fern\u00e1ndez-Marchante, P. Ca\u00f1izares J. Lobato. Powering with Solar Energy the Anodic Oxidation of Wastewater Polluted with Pesticides. ACS Sustainable Chemistry & Engineering (2019) 7(9), 8303-8309.
\n\u2022 M. Mill\u00e1n, J. Lobato, P. Ca\u00f1izares, M.A. Rodrigo. Prediction and Management of Solar Energy to Power Electrochemical Processes for the Treatment of Wastewater Effluents. Electrochim. Acta (2020), 335, 135594
\n\u2022 M. Mill\u00e1n, P. Y. Bucio-Rodr\u00edguez, J. Lobato, C.M. Fern\u00e1ndez-Marchante, G. Roa-Morales, C. Barrera-D\u00edaz, M.A. Rodrigo Strategies for powering electrokinetic soil remediation: a way to optimize performance of the environmental technology. Journal of Environmental Management (2020), 267, 110665
\n\u2022 V.M. Garc\u00eda-Orozco, M. Mill\u00e1n, J. Lobato, C.M. Fern\u00e1ndez-Marchante, G. Roa-Morales, I. Linares-Hern\u00e1ndez, R. Natividad, C. Barrera-D\u00edaz, M.A. Rodrigo. Importance of Electrode Tailoring in the Coupling of Electrolysis with Renewable Energy. ChemElectroChem (2020) 7 (13), 2925-2932.
\n\u2022 J. Lobato, J. Oviedo, P. Ca\u00f1izares, M. A. Rodrigo, M. Mill\u00e1n. Impact of carbonaceous particles concentration in a nanofluidic electrolyte for vanadium redox flow batteries. Carbon (2020) 156, 287-298.
\n\u2022 C. M. Fernandez-Marchante, M. Mill\u00e1n, J. I. Medina-Santos, J. Lobato. Environmental and Preliminary Cost Assessments of Redox Flow Batteries for Renewable Energy Storage. Energy Technology (2020), 8(11), 1900914
\n\u2022 C. M. Fernandez-Marchante, F. L. Souza, M. Mill\u00e1n, J. Lobato, M.A. Rodrigo. Improving sustainability of electrolytic wastewater treatment processes by green powering. Science of the Total Environment, 2021, 754, 142230
\n\u2022 C. M. Fernandez-Marchante, F. L. Souza, M. Mill\u00e1n, J. Lobato, M.A. Rodrigo. Does intensification with UV light and US improve the sustainability of electrolytic waste treatment processes? Journal of Environmental Management, 2021, 279, 111597<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 8<\/p>\n

\u2022 M.J. Mart\u00edn de Vidales, M.P. Castro, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Radiation-assisted electrochemical processes in semi-pilot scale for the removal of clopyralid from soil washing wastes. Separation and Purification Technology, 2019, 208, 100.109
\n\u2022 S. Rodrigo, C. S\u00e1ez, V. Navarro, P. Ca\u00f1izares, M.A. Rodrigo. Are electrochemical fences effective in the retention of pollution? Separation and Purification Technology, 201, 2018, 19-24
\n\u2022 S. Barba, R. L\u00f3pez-Vizca\u00edno, C. Saez, J. Villase\u00f1or, P. Ca\u00f1izares, V. Navarro, M.A. Rodrigo. Electro-bioremediation at the prototype scale: What it should be learned for the scale-up. Chemical Engineering Journal, 334 (2018) 2030-2038
\n\u2022 R. L\u00f3pez-Vizca\u00edno, \u00c1. Yustres, C. S\u00e1ez, P. Ca\u00f1izares, M.A Rodrigo, V. Navarro. Techno-economic analysis of the scale-up process of electrochemically-assisted soil remediation. Journal of Environmental Management, 2019, 231, 570-575.
\n\u2022 L\u00f3pez-Vizca\u00edno, R., dos Santos, E.V., Yustres, A., Rodrigo, M.A., Navarro, V., Mart\u00ednez-Huitle, C.A. Calcite buffer effects in electrokinetic remediation of clopyralid-polluted soils (2019) Separation and Purification Technology, 212, pp. 376-387. Cited 10 times.DOI: 10.1016\/j.seppur.2018.11.034
\n\u2022 E. Lacasa, S. Cotillas, C. Saez, J. Lobato, P. Ca\u00f1izares, M. A. Rodrigo. Environmental applications of electrochemical technology. What is needed to enable full-scale applications?. Current Opinion in Electrochemistry, 2019, 16, 149-156
\n\u2022 S. Cotillas, J. Llanos, I. Moraleda, P. Ca\u00f1izares, Manuel A. Rodrigo. Scaling-up an integrated electrodisinfection-electrocoagulation process for wastewater reclamation. Chemical Engineering Journal, 380, 2020, art. n. 122415.
\n\u2022 P\u00e9rez, J.F., Llanos, J., S\u00e1ez, C., L\u00f3pez, C., Ca\u00f1izares, P., Rodrigo, M.A. Towards the scale up of a pressurized-jet microfluidic flow-through reactor for cost-effective electro-generation of H2O2 (2019) Journal of Cleaner Production, 211, pp. 1259-1267. Cited 12 times.DOI: 10.1016\/j.jclepro.2018.11.225
\n\u2022 Santos, G.D.O.S., Gonzaga, I.M.D., D\u00f3ria, A.R., Moratalla, A., da Silva, R.S., Eguiluz, K.I.B., Salazar-Banda, G.R., Saez, C., Rodrigo, M.A. Testing and scaling-up of a novel Ti\/Ru0.7Ti0.3O2 mesh anode in a microfluidic flow-through reactor (2020) Chemical Engineering Journal, 398, art. no. 125568.
\n\u2022 Lara-Ramos, J.A., Saez, C., Machuca-Mart\u00ednez, F., Rodrigo, M.A. Electro-ozonizers: A new approach for an old problem (2020) Separation and Purification Technology, 241, art. no. 116701. Cited 4 times. DOI: 10.1016\/j.seppur.2020.116701<\/p>\n

Total de Publicaciones: 116<\/p>\n

Comunicaciones en congreso<\/strong><\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 3<\/p>\n

1. M.A. Rodrigo, P. Ca\u00f1izares, C. S\u00e1ez, V. Navarro, J. Villase\u00f1or, F.J. Fern\u00e1ndez, J. Lobato, L. Rodriguez, J. Llanos. Application of electrochemical technologies for the removal of organochlorinated pesticides from polluted soil and wastewater. XXI Simposio Brasileiro de Eletroquimica y Eletroanalitica. Natal (Brasil), 17-21 abril 2017. Conferencia Plenaria.
\n2. M. Mu\u00f1oz, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Remediation of soils polluted with organochlorinated compounds using surfactant-aided soil washing and electrochemical oxidation. 68th Annual Meeting of the International Society of Electrochemistry. Providence (Estados Unidos). 28 agosto-1 septiembre 2017. Comunicaci\u00f3n oral.
\n3. R. L\u00f3pez-Vizca\u00edno, C. Risco, J. Isidro, S. Rodrigo, C. Saez, P. Ca\u00f1izares, V. Navarro, M.A. Rodrigo. Electrokinetic Fence technology: does size matter for removal of herbicides?. WCCE10, Barcelona, (Espa\u00f1a) 1-5 Octubre 2017. Comunicaci\u00f3n Oral
\n4. M. Mu\u00f1oz, C.M. Fern\u00e1ndez, J. Llanos, C. S\u00e1ez, F.J. Fern\u00e1ndez, J.Villase\u00f1or, J. Lobato, M.A. Rodrigo, P. Ca\u00f1izares. Electrolisis con \u00e1nodos de diamante para el tratamiento de aguas de lavado de suelos contaminados. Reuni\u00f3n META 2018, Le\u00f3n (Espa\u00f1a). Junio 2018. Comunicaci\u00f3n Oral
\n5. M.A. Rodrigo, M. Mu\u00f1oz-Morales, C. S\u00e1ez, J. Llanos, J. Lobato, P. Ca\u00f1izares. Treatment of Soil washing wastes by anodic oxidation with diamond anodes. XXXIX GE-RSEQ. 3rd E3-MS. 2-5 julio 2018, Madrid (Espa\u00f1a). P\u00f3ster
\n6. M. Mu\u00f1oz, C. S\u00e1ez, J. Llanos, J. Lobato, P. Ca\u00f1izares, M.A. Rodrigo. Combined soil washing and electrolysis: what are the challenges that have to be faced before full-scale application? ISE:Bolonia (Italia), 2-7 Septiembre 2018. Keynote.
\n7. M. Mu\u00f1oz-Morales, M. Barbosa, C. S\u00e1ez, P. Ca\u00f1izares, C.A. Mart\u00ednez-Huitle, M.A. Rodrigo. Removal of organochlorinated compounds from polluted soils using electrooxidation technologies combined with ZVI particles. XL Meeting of the electrochemistry group of Spanish Royal Society of Chemistry \/ XX Iberian meeting of electrochemistry. Huelva (Espa\u00f1a). Junio, 2019. Comunicaci\u00f3n oral<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 4<\/p>\n

8. S. Barba, B. Carboneras, J. Villase\u00f1or, F. J. Fern\u00e1ndez, P. Ca\u00f1izares and M. A. Rodrigo. Removal of Organochlorinated Species from Soil by Combined Biological and Electrochemical Processes. 11th European Symposium on Electrochemical Engineering June 4 \u2013 8, 2017, Prague. Comunicaci\u00f3n Oral
\n9. S. Rodrigo, C. S\u00e1ez, P. Ca\u00f1izares and M. A. Rodrigo. Reversible electrokinetic adsorption barriers for the removal of organochlorine herbicide from spiked soils. 11th European Symposium on Electrochemical Engineering June 4 \u2013 8, 2017, Prague. Comunicaci\u00f3n Oral
\n10. S. Barba, R. L\u00f3pez-Vizca\u00edno, C. S\u00e1ez, J. Villase\u00f1or, P. Ca\u00f1izares, V. Navarro, M.A. Rodrigo. Electro-bioremediation Scale-up Process of Pesticide Polluted Soil. 38th Spanish Royal Society of Chemistry \u2013 Electrochemistry Group\u2019s annual meeting, in Vitoria-Gasteiz 05th to 07th July 2017, Comunicaci\u00f3n Oral.
\n11. V. S\u00e1nchez, F.J. L\u00f3pez-Bellido, P. Ca\u00f1izares, L. Rodr\u00edguez. Electrokinetic-assisted phytoremediation of soils polluted by atrazine in bench-scale mesocosms. 10th WCCE (October 2017) Barcelona, Spain. Comunicaci\u00f3n oral
\n12. S. Barba, M. Carvela, J. Villase\u00f1or, M. A. Rodrigo, P. Ca\u00f1izares. In Situ Electrobioremediation of soil polluted with organochlorinated compounds. 7th European Bioremediation Conference & 11th ISEB Conference, Chania, Greece, June 25 \u2013 28, 2018. Comunicaci\u00f3n Oral
\n13. C. S\u00e1ez, V. Navarro, P. Ca\u00f1izares, M.A. Rodrigo. Scale-up of Electrokinetic Adsorption Barriers for the Removal of Organochlorine Herbicide from Spiked Soils: Lessons Learned. ISE:Bolonia (Italia), 2-7 Septiembre 2018.. Comunicaci\u00f3n Oral.<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 5<\/p>\n

14. M.B. Carboneras, J. Villase\u00f1or, F.J. Fern\u00e1ndez-Morales. Combination of Biological and Electrochemical Processes to Remove Oxyfluorfen Pesticide from Water. 9th Eastern European Young Water Professionals Conference. Budapest (Hungr\u00eda). 24-27 de mayo de 2017. Comunicaci\u00f3n Oral
\n15. M.B. Carboneras, M.A. Rodrigo, J. Villase\u00f1or and F.J. Fern\u00e1ndez-Morales. Selecting the best anode to increase the biodegradabillity of clopyralid polluted soil washing effluents. Young water professionals Spain. Bilbao (Espa\u00f1a). 16-18 noviembre de 2017.P\u00f3ster.
\n16. J. Llanos, C. S\u00e1ez, M. A. Rodrigo, P. Ca\u00f1izares. Integration of technologies for environmental applications: paving the way for the intensification of electrochemical processes, XXII Meeting of the Portuguese Society of Electrochemistry. Ponta Delgada (Portugal). 19-22 junio 2017. Conferencia invitada. ISBN: 978-989-95527-2-2
\n17. J. F. P\u00e9rez, J. Llanos, C. S\u00e1ez, I. Moraleda, C. L\u00f3pez, P. Ca\u00f1izares, M. A. Rodrigo Innovative approach for the aeration of electrochemical reactors to produce hydrogen peroxide. 11th European Symposium on Electrochemical Engineering. Praga (Rep\u00fablica Checa), 4-8 junio 2017. Comunicaci\u00f3n Oral. ISBN: 978-80-7080-988-4
\n18. A. Raschitor, M. A. Rodrigo, P. Ca\u00f1izares. Overcoming mass transfer limitations by the simultaneous electrodialysis and electro-oxidation of 2,4-D, 11th European Symposium on Electrochemical Engineering. Praga (Rep\u00fablica Checa), 4-8 junio 2017. Comunicaci\u00f3n Oral. ISBN: 978-80-7080-988-4
\n19. M. Mu\u00f1oz, J. Llanos, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo. Improving the efficiency of electrolytic remediation processes through novel strategies for the pre- concentration of pollutants. 11th European Symposium on Electrochemical Engineering. Praga (Rep\u00fablica Checa), 4-8 junio 2017. Comunicaci\u00f3n Oral. ISBN: 978-80-7080-988-4
\n20. J. F. P\u00e9rez, O. Scialdone, B. Schiavo, S. Sabatino, C. S\u00e1ez, J. Llanos, C. L\u00f3pez, P. Ca\u00f1izares, M. A. Rodrigo. Electr-chemical generation of hydrogen peroxide under pressure using carbon felt electrodes. 11th European Symposium on Electrochemical Engineering. Praga (Rep\u00fablica Checa), 4-8 junio 2017. P\u00f3ster. ISBN: 978-80-7080-988-4
\n21. J.F. P\u00e9rez, C. S\u00e1ez, J. Llanos, C. L\u00f3pez, P. Ca\u00f1izares, M.A. Rodrigo. Double flow-through jet cell for the electro-fenton process. 5th European Conference on Environmental Applications of Advanced Oxidation Processes (EAAOP5). Praga (Rep\u00fablica Checa), 25-29 junio 2017. Comunicaci\u00f3n Oral
\n22. M. Mu\u00f1oz, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Electrochemical oxidation of non-aqueous solvent polluted with lindane. 5th European Conference on Environmental Applications of Advanced Oxidation Processes (EAAOP5). Praga (Rep\u00fablica Checa), 25-29 junio 2017. Poster
\n23. I. Moraleda, J. F. P\u00e9rez, J. Llanos, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo. Pairing Anodic Processes with Cathodic H2O2 Generation for Environmental Remediation Processes. 38th Spanish Royal Society of Chemistry \u2013 Electrochemistry Group\u2019s annual meeting, in Vitoria-Gasteiz 05th to 07th July 2017, Comunicaci\u00f3n Oral.
\n24. M. Mu\u00f1oz- Morales, D. Dionisio, P. Ca\u00f1izares, C. Saez, A. J. Motheo, M. A. Rodrigo. Treating soil washing polluted with lindane by electrolysis with diamond electrodes; 2nd Summer School on Environmental applications of AOPs Porto (Portugal) 10-14 de Julio 2017. Comunicaci\u00f3n Oral
\n25. D. Dionisio, M. Mu\u00f1oz- Morales, P. Ca\u00f1izares, C. Saez, A. J. Motheo, M. A. Rodrigo. Effect of Supporting Electrolyte on Electrochemical and Sonoelectrochemical Degradation of Methyl Paraben; 2nd Summer School on Environmental applications of AOPs Porto (Portugal) 10 14 de Julio 2017. Comunicaci\u00f3n Oral
\n26. M.A. Rodrigo. Electrochemical Advanced Oxidation Processes. ; 2nd Summer School on Environmental applications of AOPs Porto (Portugal) 10 14 de Julio 2017. Invited Lecture
\n27. J. Llanos, A. Raschitor, Mart\u00edn Mu\u00f1oz, P. Ca\u00f1izares, M. A. Rodrigo Development of Concentration Strategies for the Improvement of the Efficiency of Electrochemical Degradation Technologies,. 68th Annual Meeting of the International Society of Electrochemistry. Providence (Estados Unidos). 28 agosto-1 septiembre 2017. Comunicaci\u00f3n oral.
\n28. I. Moraleda, J. Llanos, C. S\u00e1ez, P. Ca\u00f1izares, M. A. Rodrigo. Coupling Anodic Processes with Cathodic H2O2 Generation for Environmental Remediation Processes, J Jos\u00e9 Fernando P\u00e9rez, 68th Annual Meeting of the International Society of Electrochemistry. Providence (Estados Unidos). 28 agosto-1 septiembre 2017. P\u00f3ster.
\n29. M.B. Carboneras, S. Barba, F.J. Fern\u00e1ndez, J. Villase\u00f1or, M.A. Rodrigo, Pablo Ca\u00f1izares. Removal of organochlorinated species from water by combined biological and electrochemical processes. 10th WCCE. Barcelona (Espa\u00f1a). 1-5 Octubre 2017. Comunicaci\u00f3n Oral
\n30. J.F. P\u00e9rez, C. S\u00e1ez, J. Llanos, C. L\u00f3pez, P. Ca\u00f1izares, M.A. Rodrigo. Development of the electrochemical technology for the production of hydrogen peroxide. WCCE10, Barcelona, (Espa\u00f1a) 1-5 Octubre 2017. Comunicaci\u00f3n Oral
\n31. J. Llanos, I. Moraleda, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Role of anode material in the electrochemical synthesis of peracetic acid. WCCE10, Barcelona, (Espa\u00f1a) 1-5 Octubre 2017. Comunicaci\u00f3n Oral
\n32. D. Dionisio, C. Saez, A.J. Motheo, P. Ca\u00f1izares, M.A. Rodrigo. Effect of UV light irradiation on the electrochemical oxidation of methyl paraben. SPEA10, 4-8 junio 2018. Almer\u00eda (Espa\u00f1a). Comunicaci\u00f3n Oral.
\n33. J. Llanos, I. Moraleda, C. S\u00e1ez, M. A. Rodrigo, P. Ca\u00f1izares. Electrochemical production of perchlorates as a way of valorize the rejection streams of the SWRO process. IWA Regional conference of water reuse and salinity management. Murcia (Espa\u00f1a). 11-15 junio 2018. Comunicaci\u00f3n Oral
\n34. J. Llanos, S. Cotillas, P. Ca\u00f1izares, M.A. Rodrigo. .Urban treated wastewater reclamation by electrochemical technologies: From lab to industry, IWA Regional conference of water reuse and salinity management. Murcia (Espa\u00f1a). 11-15 junio 2018. P\u00f3ster
\n35. S. Cotillas, E. Lacasa, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Polymedicated patients: does electrolysis remove traces of different medicines from urine? 11th European Symposium on Electrochemical Engineering. Praga (Rep\u00fablica Checa), 4-8 junio 2017. Comunicaci\u00f3n oral.
\n36. S. Cotillas, E. Lacasa, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. How can be avoided the formation of perchlorates during electrolysis with diamond anodes? Comparison of strategies. 5th European Conference on Environmental Applications of Advanced Oxidation Processes (EAAOP5). Praga (Rep\u00fablica Checa), 25-29 junio 2017. Poster.
\n37. S. Cotillas, E. Lacasa, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Treatment of hospital wastewater by electrochemical technology. XXXVIII Reuni\u00f3n del Grupo de Electroqu\u00edmica de la Real Sociedad Espa\u00f1ola de Qu\u00edmica. Vitoria (Espa\u00f1a), 5-7 julio 2017. Comunicaci\u00f3n oral.
\n38. S. Cotillas, E. Lacasa, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Removal of antibiotics from urine: a new challenge for electrochemistry. The case of chloramphenicol. 10th World Congress of Chemical Engineering. Barcelona (Espa\u00f1a), 1-5 octubre 2017. P\u00f3ster.
\n39. S. Cotillas, E. Lacasa, M. Herraiz, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Removal of antibiotic penicillin G by conductive-diamond electrochemical oxidation. XXXIX Meeting of the Electrochemistry Group of the Spanish Royal Society of Chemistry & 3rd E3 Mediterranean Symposium: Electrochemistry for Environment and Energy. Madrid (Espa\u00f1a), 2-5 julio 2018. Comunicaci\u00f3n oral.
\n40. I.F. Mena, S. Cotillas, E. D\u00edaz, A.F. Mohedano, C. S\u00e1ez, M.A. Rodrigo. Application of electrolytic processes with diamond anodes for the oxidation of imidazolium ionic liquids in aqueous phase. 5th European Conference on Environmental Applications of Advanced Oxidation Processes (EAAOP5). Praga (Rep\u00fablica Checa), 25-29 junio 2017. Poster. ISBN: 978-80-7080-991-4. Comunicaci\u00f3n oral
\n41. I.F. Mena, S. Cotillas, E. D\u00edaz, A.F. Mohedano, C. S\u00e1ez, M.A. Rodrigo. Electrolysis of the ionic liquid Bmim-NTf2 using diamond anodes. Is NTf2 a refractory compound for this technology?. WCCE10, Barcelona, (Espa\u00f1a) 1-5 Octubre 2017. Comunicaci\u00f3n Oral
\n42. J.F. P\u00e9rez. Pressurized-jet microfluidic flow-through reactor for wastewater treatment. Diamond Electrode Workshop CONDIAS. Itzehoe (Alemania). 21 junio 2018. Comunicacion oral
\n43. Alexandra Raschitor, Javier Llanos, Pablo Ca\u00f1izares, Manuel A. Rodrigo, Combining electrocoagulation with electro-oxidation for the removal of non-ionic organochlorine compounds, 39 Reuni\u00f3n de la Sociedad Espa\u00f1ola de Electroqu\u00edmica GE-RSEQ. Madrid (Espa\u00f1a). Julio 2018. Comunicaci\u00f3n Oral
\n44. I. Moraleda, J. Llanos, C. S\u00e1ez, M.A. Rodrigo, P. Ca\u00f1izares. Performance of actual comercial cells for the electrochemical production of pechlorates from brines. XXXIX Reuni\u00f3n del Grupo de Electroqu\u00edmica de la Real Sociedad Espa\u00f1ola de Qu\u00edmica y III Simposio E3 del Mediterr\u00e1neo. Madrid (Espa\u00f1a). Julio 2018. Comunicaci\u00f3n Oral.
\n45. Jos\u00e9 Fernando P\u00e9rez, Cristina S\u00e1ez, Javier Llanos, Conrado L\u00f3pez, Pablo Ca\u00f1izares, Manuel A. Rodrigo. A Pressurized-jet Aerated Microfluidic-through H2O2 Electrolyzer: Concept, Construction Details and Experimental Results. ISE:Bolonia (Italia), 2-7 Septiembre 2018. Comunicaci\u00f3n oral
\n46. Alternatives for the Efficient Electrochemical Degradation of Non-Polar Organochlorine Compounds. Javier Llanos, Alexandra Raschitor, Manuel Andr\u00e9s Rodrigo, Pablo Ca\u00f1izares,. 25\u00ba Topical Meeting de la Sociedad Internacional de Electroqu\u00edmica. Toledo (Espa\u00f1a). Abril de 2019. Comunicaci\u00f3n Oral.
\n47. Development of a novel electrocoagulation reactor for water treatment. Julia Isidro, Javier Llanos,Cristina S\u00e1ez, Pablo Ca\u00f1izares, Manuel Andr\u00e9s Rodrigo,. 25\u00ba Topical Meeting de la Sociedad Internacional de Electroqu\u00edmica. Toledo (Espa\u00f1a). Abril de 2019. P\u00f3ster.
\n48. Is it worth using the electrodialysis\/electro-oxidation system for the removal of pesticides? Process modelling and role of the pollutant. Alexandra Raschitor, Javier Llanos, Manuel Andr\u00e9s Rodrigo, Pablo Ca\u00f1izares. 25\u00ba Topical Meeting de la Sociedad Internacional de Electroqu\u00edmica. Toledo (Espa\u00f1a). Abril de 2019. P\u00f3ster.
\n49. Degradation of oxyfluorfen herbicide by membrane and electrochemical processes. G. Acosta-Santoyo, A. Raschitor, M.A. Rodrigo, P. Ca\u00f1\u00edzare, J. Llanos,. 25\u00ba Topical Meeting de la Sociedad Internacional de Electroqu\u00edmica. Toledo (Espa\u00f1a). Abril de 2019. P\u00f3ster
\n50. Comparison of Different Electrochemical Reactor Designs for the Simultaneous Production of Hydrogen Peroxide and Peroxoacetic Acid. Javier Llanos, Inmaculada Moraleda, Cristina S\u00e1ez, Manuel A. Rodrigo, Pablo Ca\u00f1izares. 25\u00ba Topical Meeting de la Sociedad Internacional de Electroqu\u00edmica. Toledo (Espa\u00f1a). Abril de 2019. P\u00f3ster.
\n51. Improvements in the treatment of the polluted streams containing non-polar organochlorine pesticides. Alexandra Raschitor, Javier Llanos, Gustavo Santos Acosta, Manuel Andr\u00e9s Rodrigo, Pablo Ca\u00f1izares. The 12th European Congress of Chemical Engineering. Florencia (Italia). 17 de septiembre de 2019. Comunicaci\u00f3n Oral.
\n52. J.F. P\u00e9rez, C. S\u00e1ez, A. Moratalla, J. Llanos, P. Ca\u00f1izares, M.A Rodrigo. Testing a new concept of heterogeneous electroFenton reactor for wastewater treatment. 25th Topical meeting of the international society of electrochemistry. Toledo (Espa\u00f1a), Mayo 2019. Comunicaci\u00f3n oral
\n53. G. de Oliveira Santiago Santos, L.R. Arag\u00e3o, K. Eguiluz, M. Pupo, C. S\u00e1ez, G. Salazar-Banda. A Comparative Study of Conventional and Laser Prepared MMO (Ti\/RuO2IrO2) Anode on the Electrochemical Oxidation of RB21 dye. 25th Topical meeting of the international society of electrochemistry. Toledo (Espa\u00f1a), Mayo 2019. Comunicaci\u00f3n oral
\n54. G. de Oliveira Santiago Santos, K. Radios, G. Salazar-Banda, M.A. Rodrigo, C. S\u00e1ez. Influence of Doping Level on the Electrochemical Oxidation of Clopyralid on Boron Doped Diamond Anodes in Different Media. 25th Topical meeting of the international society of electrochemistry. Toledo (Espa\u00f1a), Mayo 2019. P\u00f3ster
\n55. Gonzaga, G. Banda, K. Eguiluz, M.A. Rodrigo, C. Saez. Comparative study of BDD and MMO (Ti\/Ru50Ir50) in the electrooxidation of synthetic urine. 25th Topical meeting of the international society of electrochemistry. Toledo (Espa\u00f1a), Mayo 2019. P\u00f3ster
\n56. M. Mart\u00edn-Morales, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Is it possible to improve the biodegradability of hospital effluents by electrochemical advanced oxidation processes? EAAOP6. Portoroz (Eslovenia). Junio, 2019 . Comunicaci\u00f3n oral
\n57. Generation of O3 and H2O2 Using High-Pressure Electrochemical Reactor. Gustavo Acosta, Erika Bustos, Lidia Utrilla, Pablo Ca\u00f1izares, M.A. Rodrigo, Javier Llanos. 71st Annual Meeting of the International Society of Electrochemistry. 30 agosto-4 septiembre 2020. Meeting on-line. Poster
\n58. S. Cotillas, E. Lacasa, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Photo-assisted degradation of organochlorinated compounds from soil washing effluents using diamond electrodes. XXXVII Reuni\u00f3n Bienal de la Real Sociedad Espa\u00f1ola de Qu\u00edmica. Donostia-San Sebasti\u00e1n (Espa\u00f1a), Mayo 2019. Comunicaci\u00f3n oral
\n59. M.A. Mamelkina, S. Cotillas, E. Lacasa, C. S\u00e1ez, R. Tuunila, A. H\u00e4kkinen, M. Sillanp\u00e4\u00e4, M.A. Rodrigo. Electrochemical Removal of Cyanide from Mining Waters. 25th Topical meeting of the international society of electrochemistry. Toledo (Espa\u00f1a), Mayo 2019. Comunicaci\u00f3n oral
\n60. Gessica Santos, Katlin Eguiluz, Giancarlo Salazar-Banda, Cristina Saez, Manuel Rodrigo. Testing the role of electrode material on the Electro-Fenton and Photoelectron-Fenton degradation of Clopyralid. III Summer school of the European phd school on advanced oxidation processes, Alcoy ( Espa\u00f1a) Junio de 2019.
\n61. Luis Fernando Le\u00f3n, Francisco Jes\u00fas Fern\u00e1ndez, Jos\u00e9 Villase\u00f1or, Pablo Ca\u00f1izares, Manuel Andr\u00e9s Rodrigo.DECHLORINATION OF 2,4-DCP BY MEANS OF BIOELECTROCHEMICAL SYSTEMS ANQUE-ICCE-CIBIQ 2019 held in Santander (Spain) from 19th to 21st June, 2019. Oral presentation
\n62. Julia Isidro, Cristina S\u00e1ez, Javier Llanos, Pablo Ca\u00f1izres, Manuel Andr\u00e9s Rodrigo. Development of a portable system for the electrochemical dosing of coagulants. ANQUE-ICCE-CIBIQ 2019 held in Santander (Spain) from 19th to 21st June, 2019. Oral presentation
\n63. Rodriguez-Pe\u00f1a M., Barrios J. A., Barrera-Diaz C. E, Llanos J., Rodrigo, M. A. Degradation of organic pollutants by ozone electrogeneration and integrated advanced oxidation technologies. 1st edition of the international workshop ELO.WatR (15-17 September 2020). Comunicaci\u00f3n Oral.
\n64. G. O. S. SANTOS; A. MORATALLA; I. M. D. GONZAGA; K. I. B. EGUILUZ; G. R. SALAZAR-BANDA; C. SAEZ; M. A. RODRIGO. Clopyralid removal from groundwater matrix using a new MMO-RuO2TiO2 in a microfluidic flow-through reactor. IX Jornadas Doctorales de la Universidad de Castilla-La Mancha, Ciudad Real (Espa\u00f1a) 2019.<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 6<\/p>\n

65. M. Mu\u00f1oz Morales, Cristina S\u00e1ez, Pablo Ca\u00f1izares, M.A. Rodrigo. Removal of chlorinated hydrocarbons from gaseous phase using a combined process of adsorption and electrolysis. XXXIX GE-RSEQ. 3rd E3-MS. 2-5 julio 2018, Madrid (Espa\u00f1a). Comunicaci\u00f3n Oral
\n66. Mart\u00edn Mu\u00f1oz Morales, Florymar Escalona Dur\u00e1n, Cristina S\u00e1ez Jim\u00e9nez, Carlos Mart\u00ednez-Huitle, Pablo Ca\u00f1izares Ca\u00f1izares, Manuel Andr\u00e9s Rodrigo Rodrigo. Desarrollo De Sistemas Absorbentes Asistidos Electroqu\u00edmicamente Para La Eliminaci\u00f3n De Percloroetileno. XXIV CONGRESO DE LA SOCIEDAD IBEROAMERICANA DE ELECTROQU\u00cdMICA. 06 Dec 2020 – 11 Dec 2020. Poster.
\n67. M. Mu\u00f1oz, C. Saez, P.Ca\u00f1izares, M.A.Rodrigo. Development of an efficient abatement of chlorinated compounds through a combined adsorption-electrolysis process. IX Jornadas doctorales Ciudad Real 12 noviembre 2019. Poster
\n68. Develpment of a combined electro-scrubbing process for the treatment of volatile organic compounds. F. Escalona-Duran, C. Saez, M.A. Rodrigo, C. A. Martinez-Huitle. 1st edition of the international workshop ELO.WatR (15-17 September 2020). Comunicaci\u00f3n Oral.
\n69. F. Escalona-Duran, C. Saez, M.A. Rodrigo, C. A. Martinez-Huitle. Develpment of a combined electro-scrubbing process for the treatment of volatile organic compounds 1st edition of the international workshop ELO.WatR (15-17 September 2020). Comunicaci\u00f3n Oral.<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 7<\/p>\n

70. M. Mill\u00e1n, C.M. Fern\u00e1ndez- Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. VI Jornadas Doctorales de la Universidad de Castilla. Toledo (Espa\u00f1a) 2016. Acoplamiento de energ\u00edas renovables a procesos electroqu\u00edmicos de remediaci\u00f3n de aguas y suelos contaminados con especies organoclorados. M. Mill\u00e1n, C.M. Fern\u00e1ndez- Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. Contribuci\u00f3n poster.
\n71. M. Mill\u00e1n, S. D\u00edaz-Abad, C.M. Fern\u00e1ndez-Marchante, P. Ca\u00f1izares, M.A. Rodrigo J. Lobato. Application of RFBs for sustainable removal of pollutants by electrocoagulation Congreso Internacional HYCELTEC. Oporto (Portugal). Julio de 2017: Keynote
\n72. M. Mill\u00e1n, C.M. Fern\u00e1ndez- Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. VII Jornadas Doctorales de la Universidad de Castilla-La Mancha. Albacete (Espa\u00f1a) 2017. Acoplamiento de energ\u00eda solar a procesos de electrolisis para el tratamiento de aguas contaminadas con clopiralida. M. Mill\u00e1n, C.M. Fern\u00e1ndez- Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. Contribuci\u00f3n poster.
\n73. M. Mill\u00e1n, M.A. Rodrigo, C.M. Fern\u00e1ndez-Marchante, P. Ca\u00f1izares, J. Lobato. Towards electro-oxidation processes supplied by renewable energies. XXXIX GE-RSEQ. 3rd E3-MS. Madrid (Espa\u00f1a), 2-5 Julio 2018. Comunicaci\u00f3n Oral
\n74. M. Mill\u00e1n, M.A. Rodrigo, C.M. Fern\u00e1ndez-Marchante, P. Ca\u00f1izares and J. Lobato. Approaching the renewable energies to electrochemical treatments of pesticides. ISE:Bolonia (Italia), 2-7 Septiembre 2018. P\u00f3ster.
\n75. M. Mill\u00e1n, C.M. Fern\u00e1ndez- Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. 12th Young Science Symposium. Faculty of Chemical Sciences and Technologies, University of Castilla-La Mancha. Ciudad Real (Espa\u00f1a) 2018. Sustainable-green electrooxidation of organochlorinated compounds. M. Mill\u00e1n, C.M. Fern\u00e1ndez- Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. Presentaci\u00f3n oral.
\n76. M.C. Pel\u00e1ez, M. Mill\u00e1n, C.M. Fern\u00e1ndez-Marchante, P. Ca\u00f1izares, M.A. Rodrigo, J. Lobato. 8th European Summer School on Electrochemical Engineering. Toulouse (Francia) 2018. Coupling of renewable energies to electrochemical processes for remediation of wastewater and soil polluted by organochlorinated compounds. Contribuci\u00f3n poster.
\n77. Mar\u00eda Mill\u00e1n, Manuel A. Rodrigo, Carmen M. Fern\u00e1ndez-Marchante, Pablo Ca\u00f1izares and Justo Lobato. XXXVII Reuni\u00f3n Bienal de la Real Sociedad Espa\u00f1ola de Qu\u00edmica, Donostia-San Sebastian (Espa\u00f1a), Mayo 2019. Towards the Renewable Energy Management to Power Electrooxidation Technologies. Comunicaci\u00f3n Oral
\n78. Mar\u00eda Mill\u00e1n, Manuel A. Rodrigo, Carmen M. Fern\u00e1ndez-Marchante, Pablo Ca\u00f1izares and Justo Lobato. 25th Topical Meeting of the International Society of Electrochemistry, Toledo (Espa\u00f1a), Mayo 2019. Management of Green Energy to Power Electrochemical Processes for the Treatment of Polluted Soils and Wastewater. Comunicaci\u00f3n Oral.
\n79. M. Mill\u00e1n, V.M. Garc\u00eda-Orozco, C. M. Fern\u00e1ndez-Marchante, J. Lobato, M.A. Rodrigo. IX Jornadas Doctorales de la Universidad de Castilla-La Mancha, Ciudad Real (Espa\u00f1a) 2019. Towards the environmental remediation of wastewater effluents using electrochemical technologies powered by solar energy. Contribuci\u00f3n poster.
\n80. M. Mill\u00e1n, J. Lobato, C. M. Fern\u00e1ndez- Marchante, M.A. Rodrigo. V Workshop de la Red E3TECH \/ I Workshop Iberoamericano a Distancia \u2018Aplicaciones Medioambientales y Energ\u00e9ticas de la Tecnolog\u00eda Electroqu\u00edmica\u2019, 2020. Gesti\u00f3n de energ\u00eda renovable para la alimentaci\u00f3n energ\u00e9tica de sistemas de tratamiento electroqu\u00edmico ambiental. Comunicaci\u00f3n Oral.<\/p>\n

Contribuciones relacionadas con el Paquete de Trabajo 8<\/p>\n

81. S. Barba, R. L\u00f3pez-Vizca\u00edno, C. S\u00e1ez, J. Villase\u00f1or, P. Ca\u00f1izares, V. Navarro, M.A. Rodrigo. Scale up of the electrokinetic treatment assisted with a biological permeable reactive barrier of an herbicide-polluted soil. 68th Annual Meeting of the International Society of Electrochemistry. Providence (Estados Unidos). 28 agosto-1 septiembre 2017.P\u00f3ster
\n82. C. S\u00e1ez, P. Ca\u00f1izares, V. Navarro, M.A. Rodrigo. Scale-up of electrochemically-assisted soil remediation processes: lessons learned. XXXIX GE-RSEQ. 3rd E3-MS. 2-5 julio 2018 , Madrid (Espa\u00f1a). Keynote
\n83. S. Cotillas, J. Llanos, P. Ca\u00f1izares, M.A. Rodrigo. SCALING-UP AN INTEGRATED ELECTRODISINFECTION-ELECTROCOAGULATION PROCESS FOR WASTEWATER RECLAMATION. \u00bb YOUNG WATER PROFESSIONALS 19″ Madrid. Oral presentation.
\n84. J.F. P\u00e9rez, A. Moratalla, C. S\u00e1ez, J. Llanos, P. Ca\u00f1izares, M.A. Rodrigo. NEW ELECTROCHEMICAL REACTORS FOR COMING CHALLENGES IN WASTEWATER TREATMENT YOUNG WATER PROFESSIONALS 19″ Madrid. Oral presentation.<\/p>\n

Contribuciones relacionadas con PT2 (difusi\u00f3n en otros foros H2.5.3 de la programaci\u00f3n)<\/p>\n

85. M.A. Rodrigo. Basic of Electrochemical processes3nd Summer School on Environmental applications of AOPs Alcoy, June 4-6, 2019
\n86. M.A. Rodrigo. Workshop on Environmental Electrochemical Engineering. University of Sao Paulo. February 2019
\n87. M.A. Rodrigo, P. Ca\u00f1izares, J. Villase\u00f1or, L. Rodr\u00edguez, J. Lobato, C. S\u00e1ez, F.J. Fern\u00e1ndez-Morales, J. Llanos, C.M. Fern\u00e1ndez-Marchante, E. Lacasa. Facing organochlorinated hydrocarbon remediation throughout EAOPs: applications to polluted soil, liquid and gases. CIPOA 2019, Natal, Brasil
\n88. M.A. Rodrigo. Environmental Electrochemical Engineering. 8ESSEE2018-WPEE-EFCE- August 27th 2018 – August 31th 2018, Toulouse-France<\/p>\n

Total congresos nacionales:17
\nTotal congresos internacionales70
\nTotal conferencia\/ workshop:4<\/p>\n

Tesis derivadas del proyecto<\/strong><\/p>\n

TESIS FINALIZADAS<\/p>\n

T\u00cdTULO: ELECTROBIORREMEDIACI\u00d3N DE SUELOS CONTAMINADOS CON PESTICIDAS
\nDOCTORANDO: SILVIA BARBA PIEDRABUENA
\nDIRECTOR\/ES: JOS\u00c9 VILLASE\u00d1OR CAMACHO\/PABLO CA\u00d1IZARES CA\u00d1IZARES
\nFECHA DE LECTURA: 26 DE OCTUBRE DE 2018
\nCALIFICACI\u00d3N: SOBRESALIENTE CUM LAUDE (MENCI\u00d3N INTERNACIONAL)<\/p>\n

T\u00cdTULO: COUPLING ELECTROCHEMICAL AND BIOLOGICAL PROCESSES TO REMOVE PESTICIDES FROM POLLUTED EFFLUENTS
\nDOCTORANDO: CARBONERAS CONTRERAS MAR\u00cdA BEL\u00c9N
\nDIRECTOR\/ES: JOS\u00c9 VILLASE\u00d1OR CAMACHO\/FRANCISCO JES\u00daS FERN\u00c1NDEZ MORALES
\nFECHA DE LECTURA: 12 DE JULIO DE 2019
\nCALIFICACI\u00d3N: SOBRESALIENTE CUM LAUDE (MENCI\u00d3N INTERNACIONAL)<\/p>\n

T\u00cdTULO: COUPLING PRE-CONCENTRATION AND ELECTROCHEMICAL DEGRADATION PROCESSES FOR THE TREATMENT OF WASTEWATERS CONTAINING ORGANOCHLORINE PESTICIDES
\nDOCTORANDA: ALEXANDRA RASCHITOR
\nDIRECTOR\/ES: PABLO CA\u00d1IZARES CA\u00d1IZARES\/JAVIER LLANOS L\u00d3PEZ
\nFECHA DE LECTURA: 14 DE OCTUBRE DE 2019
\nCALIFICACI\u00d3N: SOBRESALIENTE CUM LAUDE (MENCI\u00d3N INTERNACIONAL)<\/p>\n

T\u00cdTULO: S\u00cdNTESIS, CARACTERIZACI\u00d3N Y APLICACI\u00d3N DE \u00c1NODOS DEL TIPO MEZCLA DE \u00d3XIDOS MET\u00c1LICOS SINTETIZADOS UTILIZANDO LASER DE CO2.
\nDOCTORANDA: GESSICA DE OLIVEIRA SANTIAGO SANTOS.
\nDIRECTORES: GIANCARLO SALAZAR BANDA\/ MANUEL ANDR\u00c9S RODRIGO
\nFECHA DE LECTURA: MAYO DE 2020
\nCALIFICACI\u00d3N: SOBRESALIENTE CUM LAUDE (MENCI\u00d3N INTERNACIONAL). EN COTUTELA U TIRADENTES \/UCLM<\/p>\n

T\u00cdTULO: EFECTOS DE LA INTERFERENCIA DE COMPUESTOS ORG\u00c1NICOS EN EL TRATAMIENTO DE EFLUENTES SINT\u00c9TICOS, QUE CONTIENEN METILPARABENO, POR PROCESOS ELECTROQU\u00cdMICOS
\nDOCTORANDA: DAWANY DIONISIO
\nDIRECTOR\/ES. ARTUR DE JESUS MOTHEO\/MANUEL ANDR\u00c9S RODRIGO RODRIGO
\nFECHA DE LECTURA FEBRERO DE 2019
\nCALIFICACI\u00d3N: SOBRESALIENTE CUM LAUDE (MENCI\u00d3N INTERNACIONAL). EN COTUTELA USP \/UCLM<\/p>\n

T\u00cdTULO: WASTEWATER MANAGEMENT IN THE PHARMACEUTICAL INDUSTRY: TOWARDS THE DEVELOPMENT OF NEW ELECTROCHEMICAL REACTORS FOR WASTEWATER TREATMENT
\nDOCTORANDO: JOS\u00c9 FERNANDO P\u00c9REZ SERRANO
\nDIRECTOR\/ES: CRISTINA S\u00c1EZ JIM\u00c9NEZ \/ CONRADO L\u00d3PEZ G\u00d3MEZ
\nFECHA DE LECTURA: 31 DE OCTUBRE DE 2018
\nCALIFICACI\u00d3N: SOBRESALIENTE CUM LAUDE (MENCI\u00d3N INTERNACIONAL)<\/p>\n

PENDIENTES DE LECTURA DURANTE EL PROXIMO A\u00d1O:<\/p>\n

T\u00cdTULO: TOWARDS SUSTAINABLE AND GREEN ENVIRONMENTAL REMEDIATIONS OF WASTE EFFLUENTS AND SOILS THROUGH ELECTROCHEMICAL TECHNOLOGIES POWERED BY RENEWABLE ENERGIES
\nDOCTORANDO: MARIA MILLAN ESPINAR
\nDIRECTOR\/ES: JUSTO LOBATO BAJO\/CARMEN MAR\u00cdA FERN\u00c1NDEZ MARCHANTE
\nFECHA DE LECTURA: ESTIMADA MAYO DE 2021<\/p>\n

T\u00cdTULO: DEVELOPMENT OF ELECTROCHEMICAL TECHNOLOGIES FOR THE TREATMENT OF LIQUID AND GASEOUS EFFLUENTS POLLUTED WITH CHLORINATED HYDROCARBONS
\nDOCTORANDO: MARTIN MU\u00d1OZ MORALES
\nDIRECTOR\/ES: PABLO CA\u00d1IZARES CA\u00d1IZARES \/MANUEL ANDR\u00c9S RODRIGO RODRIGO
\nDIRECTOR\/ES: JUSTO LOBATO BAJO\/CARMEN MAR\u00cdA FERN\u00c1NDEZ MARCHANTE
\nFECHA DE LECTURA: ESTIMADA MAYO DE 2021<\/p>\n

T\u00cdTULO: PROCESOS ACOPLADOS DE OXIDACI\u00d3N AVANZADA PARA EL TRATAMIENTO DE PLAGUICIDAS
\nDOCTORANDO: MAYRA RODRIGUEZ PE\u00d1A
\nDIRECTOR\/ES: CARLOS EDUARDO BARRERA \/MANUEL ANDR\u00c9S RODRIGO
\nFECHA DE LECTURA: ESTIMADA MAYO DE 2021. EN COTUTELA UAEM \/UCLM<\/p>\n

T\u00cdTULO; S\u00cdNTESIS DE \u00c1NODOS TIPO MEZCLA DE \u00d3XIDOS MET\u00c1LICOS ASISTIDOS POR MICRO-ONDAS APLICADOS EN LA DEGRADACI\u00d3N DE COMPUESTOS ORG\u00c1NICOS
\nDOCTORANDO: ISABELLE MAR\u00cdA DUARTE GONZAGA
\nDIRECTOR\/ES: GIANCARLO SALAZAR BANDA\/MANUEL ANDR\u00c9S RODRIGO
\nFECHA DE LECTURA: ESTIMADA NOVIEMBRE DE 2021. EN COTUTELA U TIRADENTES \/UCLM<\/p>\n

T\u00cdTULO: GESTI\u00d3N DE GASES EN CELDAS ELECTROQU\u00cdMICAS MEDIANTE ELECTROABSORBEDORES
\nDOCTORANDO: FLORYMAR ESCALONA DUR\u00c1N
\nDIRECTOR\/ES: CARLOS ALBERTO MARTINEZ-HUITLE\/ MANUEL ANDR\u00c9S RODRIGO
\nFECHA DE LECTURA: ESTIMADA AGOSTO DE 2021. EN COTUTELA UFRGN \/UCLM<\/p>\n

T\u00cdTULO: TRATAMIENTO DE EFLUENTES CONTAMINANTES GENERADOS EN ACTIVIDADES INDUSTRIALES MEDIANTE SISTEMAS BIOELECTROQU\u00cdMICOS
\nDOCTORANDO: LUIS FERNANDO LEON FERNANDEZ
\nDIRECTOR\/ES: FRANCISCO JESUS FERNANDEZ MORALES \/ JOSE VILLASE\u00d1OR CAMACHO
\nFECHA DE LECTURA: ESTIMADA AGOSTO DE 2021<\/p>\n

Total tesis en marcha:6
\nTotal tesis finalizadas:6<\/p>\n","protected":false},"excerpt":{"rendered":"

Publicaciones derivadas del proyecto Contribuciones relacionadas con el Paquete de Trabajo 3 \u2022 M. Mu\u00f1oz-Morales, M. Braojos, C. S\u00e1ez, P. Ca\u00f1izares, M.A. Rodrigo. Remediation of soils polluted with lindane using surfactant-aided soil washing and electrochemical oxidation. Journal of Hazardous Materials, 339 (2017) 232-238. \u2022 M. Mu\u00f1oz-Morales, C. S\u00e1ez, P. Ca\u00f1izares and M.A. Rodrigo. Anodic oxidation … <\/p>\n

Continuar leyendo \u00ab6. Resultados\u00bb<\/span><\/a><\/p>\n","protected":false},"author":213,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-17","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/pages\/17","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/users\/213"}],"replies":[{"embeddable":true,"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/comments?post=17"}],"version-history":[{"count":1,"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/pages\/17\/revisions"}],"predecessor-version":[{"id":155,"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/pages\/17\/revisions\/155"}],"wp:attachment":[{"href":"https:\/\/blog.uclm.es\/sustertech4ch\/wp-json\/wp\/v2\/media?parent=17"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}