| 285 - 285 |
Fundamentals and applications to environmental problems -Foreword
Forni L, Kaspar J, Trovarelli A |
| 287 - 297 |
Catalysis and sustainable (green) chemistry
Centi G, Perathoner S |
| 299 - 314 |
Fundamentals in the preparation of heterogeneous catalysts
Campanati M, Fornasari G, Vaccari A |
| 315 - 323 |
Preparation and characterisation of mesoporous silica-alumina and silica-titania with a narrow pore size distribution
Carati A, Ferraris G, Guidotti M, Moretti G, Psaro R, Rizzo C |
| 325 - 333 |
Catalytic oxidation of methanol to formaldehyde: an example of kinetics with transport phenomena in a packed-bed reactor
Tesser R, Di Serio A, Santacesaria E |
| 335 - 346 |
Combustion of CH4 over a PdO/ZrO2 catalyst: an example of kinetic study under severe conditions
Groppi G |
| 347 - 358 |
Experimental methods for activity measurements in environmental catalysis
Ciambelli P, Sannino D, Palma V, Russo P |
| 359 - 370 |
X-ray photoelectron spectroscopy (XPS) for catalysts characterization
Venezia AM |
| 371 - 384 |
Spectroscopic characterisation of microporous aluminophosphate materials with potential application in environmental catalysis
Frache A, Gianotti E, Marchese L |
| 385 - 406 |
Some contributions of electron microscopy to the characterisation of the strong metal-support interaction effect
Bernal S, Calvino JJ, Cauqui MA, Gatica JM, Cartes CL, Omil JAP, Pintado JM |
| 407 - 417 |
The use of temperature-programmed and dynamic/transient methods in catalysis: characterization of ceria-based, model three-way catalysts
Boaro M, Vicario M, de Leitenburg C, Dolcetti G, Trovarelli A |
| 419 - 449 |
Automotive catalytic converters: current status and some perspectives
Kaspar J, Fornasiero P, Hickey N |
| 451 - 465 |
Catalytic processes for the purification of drinking water and industrial effluents
Pintar A |
| 467 - 484 |
The impact of catalytic materials on fuel reformulation
Rossini S |
