| 211 - 218 |
TiO2 photocatalyst for indoor air remediation: Influence of crystallinity, crystal phase, and UV radiation intensity on trichloroethylene degradation
Puddu V, Choi H, Dionysiou DD, Puma GL |
| 219 - 224 |
FTIR spectroscopy study of the reduction of carbon dioxide on lead electrode in aqueous medium
Innocent B, Pasquier D, Ropital F, Hahn F, Leger JM, Kokoh KB |
| 225 - 233 |
Flow calorimetry and adsorption study of dibenzothiophene, quinoline and naphthalene over modified Y zeolites
Thomas JK, Gunda K, Rehbein P, Ng FTT |
| 234 - 240 |
Preparation and photodegradation activity of high aspect ratio rutile TiO2 single crystal nanorods
Xiong CR, Deng XY, Li JB |
| 241 - 247 |
Facile preparation of high performance visible light sensitive photo-catalysts
Yun HJ, Lee H, Joo JB, Kim ND, Kang MY, Yi J |
| 248 - 253 |
Dependence of photocatalytic activities upon the structures of Au/Pd bimetallic nanoparticles immobilized on TiO2 surface
Mizukoshi Y, Sato K, Konno TJ, Masahashi N |
| 254 - 262 |
Low temperature H-2-SCR over platinum catalysts supported on Ti-containing MCM-41
Li LD, Wu P, Yu Q, Wu GJ, Guan NJ |
| 263 - 271 |
Unpredictable photocatalytic ability of H-2-reduced rutile-TiO2 xerogel in the degradation of dye-pollutants under UV and visible light irradiation
Paez CA, Poelman D, Pirard JP, Heinrichs B |
| 272 - 280 |
Study on highly visible light active Bi2O3 loaded ordered mesoporous titania
Shamaila S, Sajjad AKL, Chen F, Zhang JL |
| 281 - 287 |
Preferential CO oxidation in hydrogen-rich stream over an electrochemically promoted Pt catalyst
de Lucas-Consuegra A, Princivalle A, Caravaca A, Dorado F, Guizard C, Valverde JL, Vernoux P |
| 288 - 294 |
Kinetics and mechanism of advanced oxidation processes (AOPs) in degradation of ciprofloxacin in water
An TC, Yang H, Li GY, Song WH, Cooper WJ, Nie XP |
| 295 - 302 |
Effect of calcination temperature on morphology and photoelectrochemical properties of anodized titanium dioxide nanotube arrays
Yu JG, Wang B |
| 303 - 310 |
Photocatalytic treatment of indoor air: Optimization of 2-propanol removal using a response surface methodology (RSM)
Vildozo D, Ferronato C, Sleiman M, Chovelon JM |
| 311 - 317 |
Low CO content hydrogen production from bio-ethanol using a combined plasma reforming-catalytic water gas shift reactor
Zhu XL, Hoang T, Lobban LL, Mallinson RG |
| 318 - 326 |
Modification of Rh/SiO2 catalyst for the hydrogenolysis of glycerol in water
Shinmi Y, Koso S, Kubota T, Nakagawa Y, Tomishige K |
