| 1 - 1 |
2nd European Conference on Environmental Applications of Advanced Oxidation Processes (EAAOP-2) Preface
Mantzavinos D, Poulios I |
| 2 - 7 |
Innovative self-cleaning and bactericide textiles
Kiwi J, Pulgarin C |
| 8 - 13 |
Synthesis and characterization of nitrogen-doped TiO2/AC composite for the adsorption-photocatalytic degradation of aqueous bisphenol-A using solar light
Yap PS, Lim TT, Lim M, Srinivasan M |
| 14 - 20 |
Crystal structure, morphology and photocatalytic activity of modified TiO2 and of spray-deposited TiO2 films
Uzunova-Bujnova M, Kralchevska R, Milanova M, Todorovska R, Hristov D, Todorovsky D |
| 21 - 28 |
Partial photocatalytic oxidation of glycerol in TiO2 water suspensions
Augugliaro V, El Nazer HAH, Loddo V, Mele A, Palmisano G, Palmisano L, Yurdakal S |
| 29 - 33 |
UV-A/TiO2 photocatalytic decomposition of erythromycin in water: Factors affecting mineralization and antibiotic activity
Xekoukoulotakis NP, Xinidis N, Chroni M, Mantzavinos D, Venieri D, Hapeshi E, Fatta-Kassinos D |
| 34 - 38 |
Photocatalytic degradation of stearic acid by ZnO thin films and nanostructures deposited by different chemical routes
Kenanakis G, Giannakoudakis Z, Vernardou D, Savvakis C, Katsarakis N |
| 39 - 45 |
Aqueous photocatalytic oxidation of amoxicillin
Klauson D, Babkina J, Stepanova K, Krichevskaya M, Preis S |
| 46 - 52 |
Development of a fluorescence-based method for evaluation of self-cleaning properties of photocatalytic layers
Cernigoj U, Kete M, Stangar UL |
| 53 - 57 |
Visible-light photocatalytic hydrogen production from ethanol-water mixtures using a Pt-CdS-TiO2 photocatalyst
Strataki N, Antoniadou M, Dracopoulos V, Lianos P |
| 58 - 63 |
Effects of UV-irradiated titania nanoparticles on cell proliferation, cancer metastasis and promotion
Stefanou E, Eyangelou A, Falaras P |
| 64 - 70 |
Photocatalytic-based strategies for H2S elimination
Portela R, Suarez S, Rasmussen SB, Arconada N, Castro Y, Duran A, Avila P, Coronado JM, Sanchez B |
| 71 - 76 |
Modelling and experimental study of the NOx photocatalytic degradation employing concrete pavement with titanium dioxide
Ballari MM, Hunger M, Husken G, Brouwers HJH |
| 77 - 83 |
Influence of photocatalytic paint components on the photoactivity of P25 towards NO abatement
Aguia C, Angelo J, Madeira LM, Mendes A |
| 84 - 88 |
Influence of dissolved organic carbon source, photocatalyst identity and copper(II) ions on the formation of bromoform in irradiated titanium dioxide suspensions
Espinoza LAT, Malerba RR, Frimmel FH |
| 89 - 93 |
Mineralization lumping kinetic model for abatement of organic pollutants using Fenton's reagent
Santos A, Yustos P, Rodriguez S, Romero A |
| 94 - 99 |
Photodegradation of lincomycin and diazepam in sewage treatment plant effluent by photo-Fenton process
Bautitz IR, Nogueira RFP |
| 100 - 106 |
Scale-up strategy for a combined solar photo-Fenton/biological system for remediation of pesticide-contaminated water
Zapata A, Malato S, Sanchez-Perez JA, Oller I, Maldonado MI |
| 107 - 113 |
Degradation study of 15 emerging contaminants at low concentration by immobilized TiO2 in a pilot plant
Miranda-Garcia N, Maldonado MI, Coronado JM, Malato S |
| 114 - 118 |
Municipal wastewater treatment by sequential combination of photocatalytic oxidation with constructed wetlands
Antoniadis A, Takavakoglou V, Zalidis G, Darakas E, Poulios I |
| 119 - 124 |
Photocatalytic degradation of lindane by polyoxometalates: Intermediates and mechanistic aspects
Antonaraki S, Triantis TM, Papaconstantinou E, Hiskia A |
| 125 - 130 |
Photodegradation and advanced oxidation of endocrine disruptors in aqueous solutions
Bledzka D, Gmurek M, Gryglik M, Olak M, Miller JS, Ledakowicz S |
| 131 - 136 |
Efficient mineralization of hydroperfluorocarboxylic acids with persulfate in hot water
Hori H, Murayama M, Inoue N, Ishida K, Kutsuna S |
| 137 - 142 |
Reactivity of neonicotinoid pesticides with singlet oxygen
Dell'Arciprete ML, Santos-Juanes L, Argues A, Vercher RF, Amat AM, Furlong JP, Martire DO, Gonzalez MC |
| 143 - 147 |
Deactivation and reactivation of noble metal catalysts tested in the Catalytic Wet Air Oxidation of phenol
Keav S, Martin A, Barbier-Jr J, Duprez D |
| 148 - 152 |
Catalytic wet peroxide oxidation of cosmetic wastewaters with Fe-bearing catalysts
Bautista P, Mohedano AF, Menendez N, Casas JA, Rodriguez JJ |
| 153 - 158 |
Activated carbons treated with sulphuric acid: Catalysts for catalytic wet peroxide oxidation
Gomes HT, Miranda SM, Sampaio MJ, Silva AMT, Faria JL |
| 159 - 165 |
Numerical modeling of the benzene reaction with ozone in gas phase using differential neural networks
Chairez I, Fuentes R, Poznyak T, Franco M, Poznyak A |
| 166 - 172 |
Influence of activated carbons on the kinetics and mechanisms of aromatic molecules ozonation
Merle T, Pic JS, Manero MH, Mathe S, Debellefontaine H |
| 173 - 177 |
Use of conductive-diamond electrochemical oxidation for wastewater treatment
Rodrigo MA, Canizares P, Sanchez-Carretero A, Saez C |
| 178 - 184 |
Electrochemical oxidation of saline industrial wastewaters using boron-doped diamond anodes
Anglada A, Ibanez R, Urtiaga A, Ortiz I |
| 185 - 189 |
Anodic oxidation of phenol on Ti/IrO2 electrode: Experimental studies
Chatzisymeon E, Fierro S, Karafyllis I, Mantzavinos D, Kalogerakis N, Katsaounis A |
| 190 - 194 |
Catalytic removal of nitrates from waters
Constantinou CL, Costa CN, Efstathiou AM |
| 195 - 199 |
Glass-fiber catalysts: Novel oxidation catalysts, catalytic technologies for environmental protection
Balzhinimaev BS, Paukshtis EA, Vanag SV, Suknev AP, Zagoruiko AN |
