| 375 - 375 |
Solar detoxification
Bolton JR |
| 377 - 385 |
TiO2-photocatalyzed oxidative degradation of binary mixtures of vaporized organic compounds
Lichtin NN, Avudaithai M, Berman E, Grayfer A |
| 387 - 400 |
Photocatalytic degradation of phenol: Comparison between pilot-plant-scale and laboratory results
Curco D, Malato S, Blanco J, Gimenez J, Marco P |
| 401 - 410 |
Photocatalytic degradation of industrial residual waters
Rodriguez SM, Richter C, Galvez JB, Vincent M |
| 411 - 419 |
Large solar plant photocatalytic water decontamination: Degradation of atrazine
Minero C, Pelizzetti E, Malato S, Blanco J |
| 421 - 428 |
Large solar plant photocatalytic water decontamination: Effect of operational parameters
Minero C, Pelizzetti E, Malato S, Blanco J |
| 429 - 437 |
Solar photocatalytic processes for the purification of water: State of development and barriers to commercialization
Parent Y, Blake D, MagriniBair K, Lyons C, Turchi C, Watt A, Wolfrum E, Prairie M |
| 439 - 443 |
Ferrioxalate-mediated solar degradation of organic contaminants in water
SafarzadehAmiri A, Bolton JR, Cater SR |
| 445 - 453 |
Selective photocatalytic destruction of airborne VOCs
Muradov NZ, TRaissi A, Muzzey D, Painter CR, Kemme MR |
| 455 - 469 |
Photocatalytic detoxification with the thin-film fixed-bed reactor (TFFBR): Clean-up of highly polluted landfill effluents using a novel TiO2-photocatalyst
Bekbolet M, Lindner M, Weichgrebe D, Bahnemann DW |
| 471 - 477 |
TiO2-fixed-bed reactor for water decontamination using solar light
Nogueira RFP, Jardim WF |
