| 83 - 92 |
Photocatalytic degradation of phenol by TiO2 thin films prepared by sputtering
Dumitriu D, Bally AR, Ballif C, Hones P, Schmid PE, Sanjines R, Levy F, Parvulescu VI |
| 93 - 104 |
Evaluating the effective diffusivity of methane in the washcoat of a honeycomb monolith
Hayes RE, Kolaczkowskib ST, Li PKC, Awdry S |
| 105 - 113 |
Metal doped sulfated ZrO2 as catalyst for the selective catalytic reduction (SCR) of NO with propane
Pasel J, Speer V, Albrecht C, Richter F, Papp H |
| 115 - 124 |
NOx storage reduction catalyst for automotive exhaust with improved tolerance against sulfur poisoning
Matsumoto S, Ikeda Y, Suzuki H, Ogai M, Miyoshi N |
| 125 - 135 |
Deactivation of zeolite catalysts used for NOx removal
van Kooten WEJ, Krijnsen HC, van den Bleek CM, Calis HPA |
| 137 - 149 |
A study of uranium oxide based catalysts for the oxidative destruction of short chain alkanes
Taylor SH, O'Leary SR |
| 151 - 162 |
Tertiary recycling of polypropylene by catalytic cracking in a semibatch stirred reactor - Use of spent equilibrium FCC commercial catalyst
Cardona SC, Corma A |
| 163 - 179 |
Studies on the structural evolution of highly active Ir-based catalysts for the selective reduction of NO with reductants in oxidizing conditions
Nakatsuji T |
| 181 - 189 |
Catalytic conversion of polystyrene over HMCM-41, HZSM-5 and amorphous SiO2-Al2O3: comparison with thermal cracking
Serrano DP, Aguado J, Escola JM |
| 191 - 203 |
Dual-bed catalytic system for NOx-N2O removal: a practical application for lean-burn deNO(x) HC-SCR
Perez-Ramirez J, Garcia-Cortes JM, Kapteijn F, Illan-Gomez MJ, Ribera A, de Lecea CSM, Moulijn JA |
| L75 - L81 |
The effect of SO2 on the oxidation of NO over Fe-MFI and Fe-ferrierite catalysts made by solid-state ion exchange
Giles R, Cant NW, Kogel M, Turek T, Trimm DL |
