| 1 - 1 |
Selected contributions of the 6th European Meeting on Solar Chemistry and Photocatalysis: Environmental Applications (SPEA 6), 13th to 16th June 2010 Preface
Spivey JJ |
| 2 - 2 |
Selected contributions of the 6th European Meeting on Solar Chemistry and Photocatalysis: Environmental Applications (SPEA 6), 13th to 16th June 2010 Introduction
Kluson P, Krysa J, Malato S, Oller I |
| 3 - 7 |
Preliminary study of the use of beta-SiC foam as a photocatalytic support for water treatment
Kouame NA, Robert D, Keller V, Keller N, Pham C, Nguyen P |
| 8 - 14 |
Photoelectrochemical properties of hierarchical nanocomposite structure: Carbon nanofibers/TiO2/ZnO thin films
Kment S, Hubicka Z, Kmentova H, Kluson P, Krysa J, Gregora I, Morozova M, Cada M, Petras D, Dytrych P, Slater M, Jastrabik L |
| 15 - 22 |
Photocatalytic evaluation of TiO2/nylon systems prepared at different impregnation times
Mejia MI, Marin JM, Restrepo G, Pulgarin C, Kiwi J |
| 23 - 28 |
Sulphur doped nanoparticles of TiO2
Szatmary L, Bakardjieva S, Subrt J, Bezdicka P, Jirkovsky J, Bastl Z, Brezova V, Korenko M |
| 29 - 34 |
Photocatalytic properties of different TiO2 thin films of various porosity and titania loading
Zita J, Krysa J, Cernigoj U, Lavrencic-Stangar U, Jirkovsky J, Rathousky J |
| 35 - 40 |
Preparation of Sm-loaded brookite TiO2 photocatalysts
Di Paola A, Bellardita M, Marci G, Palmisano L, Parrino F, Amadelli R |
| 41 - 45 |
Preparation of a semiconductive compound obtained by the pyrolysis of urea under N-2 and the photocatalytic property under visible light irradiation
Sakata Y, Yoshimoto K, Kawaguchi K, Imamura H, Higashimoto S |
| 46 - 52 |
Nitrogen-doped TiO2/AC bi-functional composite prepared by two-stage calcination for enhanced synergistic removal of hydrophobic pollutant using solar irradiation
Yap PS, Lim TT, Srinivasan M |
| 53 - 58 |
The preparation of silica-titania core-shell particles and their impact as an alternative material to pure nano-titania photocatalysts
Kamaruddin S, Stephan D |
| 59 - 63 |
Novel photocatalyst-based colourimetric indicator for oxygen
Mills A, Hazafy D, Lawrie K |
| 64 - 69 |
Fe(III)-porphyrin heterogenized on MCM-41: Matrix effects on the oxidation of 1,4-pentanediol
Molinari A, Maldotti A, Bratovcic A, Magnacca G |
| 70 - 77 |
Effect of ball milling on the characteristics of nano structure SrFeO3 powder for photocatalytic degradation of methylene blue under visible light irradiation and its reaction kinetics
Ghaffari M, Tan PY, Oruc ME, Tan OK, Tse MS, Shannon M |
| 78 - 83 |
Visible light driven photocatalysis in chromate(VI)/TiO2 systems-Improving stability of the photocatalyst
Kuncewicz J, Zabek P, Stochel G, Stasicka Z, Macyk W |
| 84 - 90 |
Anatase nanoparticles from hydrated titania gels
Pulisova P, Bohacek J, Subrt J, Szatmary L, Bezdicka P, Murafa N |
| 91 - 96 |
Carbon nanotube-TiO2 thin films for photocatalytic applications
Sampaio MJ, Silva CG, Marques RRN, Silva AMT, Faria JL |
| 97 - 104 |
Physical and chemical properties of titanium dioxide printed layers
Cerna M, Vesely M, Dzik P |
| 105 - 109 |
Comparison of the pure TiO2 and kaolinite/TiO2 composite as catalyst for CO2 photocatalytic reduction
Koci K, Matejka V, Kovar P, Lacny Z, Obalova L |
| 110 - 114 |
Solar light-induced degradation of bisphenol-A with TiO2 immobilized on Ti
Daskalaki VM, Frontistis Z, Mantzavinos D, Katsaounis A |
| 115 - 120 |
Photocatalytic treatment of metoprolol and propranolol
Romero V, De la Cruz N, Dantas RF, Gimenez PMJ, Esplugas S |
| 121 - 126 |
Kinetic modeling of azo dyes photocatalytic degradation in aqueous TiO2 suspensions. Toxicity and biodegradability evaluation
Satuf ML, Pierrestegui MJ, Rossini L, Brandi RJ, Alfano OM |
| 127 - 132 |
Degradation of organic pollutants in aquatic environment photoinduced by Fe(III)Cit complex: Impact of TiO2
Kolar M, Jirkovsky J, Mailhot G, Bolte M, Krysa J |
| 133 - 139 |
Photocatalytic inactivation of bacteria in a fixed-bed reactor: Mechanistic insights by epifluorescence microscopy
Pablos C, van Grieken R, Marugan J, Moreno B |
| 140 - 146 |
Photocatalytic properties of aqueous systems containing TiO2 nanoparticles
Pausova S, Krysa J, Jirkovsky J, Forano C, Prevot V, Mailhot G |
| 147 - 152 |
Photocatalytic activity of TiO2 nanofibers in simulated and real municipal effluents
Laera G, Jin B, Zhu H, Lopez A |
| 153 - 162 |
Photocatalytic removal of s-triazines: Evaluation of operational parameters
Lopez-Munoz MJ, Aguado J, Revilla A |
| 163 - 168 |
Kinetics of UV-A/TiO2 photocatalytic degradation and mineralization of the antibiotic sulfamethoxazole in aqueous matrices
Xekoukoulotakis NP, Drosou C, Brebou C, Chatzisymeon E, Hapeshi E, Fatta-Kassinos D, Mantzavinos D |
| 169 - 174 |
Photocatalytic removal of ethanol and acetaldehyde by N-promoted TiO2 films: The role of the different nitrogen sources
Meroni D, Ardizzone S, Cappelletti G, Oliva C, Ceotto M, Poelman D, Poelman H |
| 175 - 180 |
Experimental study of the NO and NO2 degradation by photocatalytically active concrete
Ballari MM, Yu QL, Brouwers HJH |
| 181 - 188 |
Photocatalytic oxidation of gaseous toluene on titania/mesoporous silica powders in a fluidized-bed reactor
Tasbihi M, Stangar UL, Cernigoj U, Jirkovsky J, Bakardjieva S, Tusar NN |
| 189 - 195 |
Photocatalytic acetic acid decomposition leading to the production of hydrocarbons and hydrogen on Fe-modified TiO2
Mozia S, Heciak A, Morawski AW |
| 196 - 201 |
Photonic efficiency and mechanism of photocatalytic molecular hydrogen production over platinized titanium dioxide from aqueous methanol solutions
Kandiel TA, Dillert R, Robben L, Bahnemann DW |
| 202 - 208 |
A study into the self-cleaning surface properties-The photocatalytic decomposition of oleic acid
Rathousky J, Kalousek V, Kolar M, Jirkovsky J, Bartak P |
| 209 - 213 |
Photocatalytic process intensification by coupling with pervaporation
Camera-Roda G, Santarelli F, Augugliaro V, Loddo V, Palmisano G, Palmisano L, Yurdakal S |
| 214 - 220 |
Solar photo-Fenton degradation of herbicides partially dissolved in water
Jimenez M, Oller I, Maldonado MI, Malato S, Hernandez-Ramirez A, Zapata A, Peralta-Hernandez JM |
| 221 - 227 |
Competitive adsorption and photodegradation of salicylate and oxalate on goethite
Krysa J, Jirkovsky J, Bajt O, Mailhot G |
| 228 - 234 |
Solar photo-Fenton as a pre-oxidation step for biological treatment of landfill leachate in a pilot plant with CPCs
Vilar VJP, Capelo SMS, Silva TFCV, Boaventura RAR |
| 235 - 240 |
Solar photocatalysis as a tertiary treatment to remove emerging pollutants from wastewater treatment plant effluents
Bernabeu A, Vercher RF, Santos-Juanes L, Simon PJ, Lardin C, Martinez MA, Vicente JA, Gonzalez R, Llosa C, Arques A, Amat AM |
| 241 - 246 |
Modified photo-Fenton for degradation of emerging contaminants in municipal wastewater effluents
Klamerth N, Malato S, Maldonado MI, Aguera A, Fernandez-Alba A |
| 247 - 254 |
Hydrogen peroxide automatic dosing based on dissolved oxygen concentration during solar photo-Fenton
Prieto-Rodriguez L, Oller I, Zapata A, Aguera A, Malato S |
| 255 - 259 |
Structured catalysts for photo-Fenton oxidation of acetic acid
Sannino D, Vaiano V, Ciambelli P, Isupova LA |
