| 181 - 195 |
Hydrogenation of acetylene-ethylene mixtures over Pd and Pd-Ag alloys: First-principles-based kinetic Monte Carlo simulations
Mei DH, Neurock M, Smith CM |
| 196 - 200 |
Fischer-Tropsch synthesis on a model Co/SiO2 catalyst
Yan Z, Wang ZJ, Bukur DB, Goodman DW |
| 201 - 208 |
The effect of Co-promotion on MoS2 catalysts for hydrodesulfurization of thiophene: A density functional study
Moses PG, Hinnemann B, Topsoe H, Norskov JK |
| 209 - 222 |
In situ FTIR and XANES studies of thiophene hydrodesulfurization on Ni2P/MCM-41
Oyama ST, Gott T, Asakura K, Takakusagi S, Miyazaki K, Koike Y, Bando KK |
| 223 - 234 |
Gold particle size effects in the gas-phase hydrogenation of m-dinitrobenzene over Au/TiO2
Cardenas-Lizana F, Gomez-Quero S, Driss H, Keane MA |
| 235 - 242 |
Insights into the nature of iron-based Fischer-Tropsch catalysts from quasi in situ TEM-EELS and XRD
Janbroers S, Louwen JN, Zandbergen HW, Kooyman PJ |
| 243 - 250 |
Improved 1-butene/isobutane alkylation with acidic ionic liquids and tunable acid/ionic liquid mixtures
Tang SW, Scurto AM, Subramaniam B |
| 251 - 259 |
Synthesis of long alkyl chain ethers through direct etherification of biomass-based alcohols with 1-octene over heterogeneous acid catalysts
Ruppert AM, Parvulescu AN, Arias M, Hausoul PJC, Bruijnincx PCA, Gebbink RJMK, Weckhuysen BM |
| 260 - 267 |
Catalytic dehydration of glycerol over vanadium phosphate oxides in the presence of molecular oxygen
Wang F, Dubois JL, Ueda W |
| 268 - 281 |
Study of catalyst deactivation and reaction mechanism of steam reforming, partial oxidation, and oxidative steam reforming of ethanol over Co/CeO2 catalyst
de Lima SM, da Silva AM, da Costa LOO, Graham UM, Jacobs G, Davis BH, Mattos LV, Noronha FB |
| 282 - 289 |
Suppression of CO by-production in steam reforming of methanol by addition of zinc oxide to silica-supported copper catalyst
Matsumura Y, Ishibe H |
| 290 - 296 |
SAPO-34 methanol-to-olefin catalysts under working conditions: A combined in situ powder X-ray diffraction, mass spectrometry and Raman study
Wragg DS, Johnsen RE, Balasundaram M, Norby P, Fjellvag H, Gronvold A, Fuglerud T, Hafizovic J, Vistad OB, Akporiaye D |
| 297 - 306 |
The role of Bronsted acidity in the selective catalytic reduction of NO with ammonia over Fe-ZSM-5
Brandenberger S, Krocher O, Wokaun A, Tissler A, Althoff R |
| 307 - 317 |
Influence of textural properties and trace water on the reactivity and deactivation of reconstructed layered hydroxide catalysts for transesterification of tributyrin with methanol
Xi YZ, Davis RJ |
| 318 - 328 |
Easy-separable magnetic nanoparticle-supported Pd catalysts: Kinetics, stability and catalyst re-use
Laska U, Frost CG, Price GJ, Plucinski PK |
| 329 - 334 |
Oxidation of dibenzothiophene to dibenzothiophene-sulfone using silica gel
Castillo K, Parsons JG, Chavez D, Chianelli RR |
| 335 - 342 |
Trend in the C=C and C=O bond hydrogenation of acrolein on Pt-M (M = Ni, Co, Cu) bimetallic surfaces
Murillo LE, Menning CA, Chen JG |
| 343 - 349 |
Aerobic alcohol oxidation catalyzed by supported ruthenium hydroxides
Yamaguchi K, Kim JW, He JL, Mizuno N |
| 350 - 355 |
Gold nanoparticles supported on ceria promote the selective oxidation of oximes into the corresponding carbonylic compounds
Grirrane A, Corma A, Garcia H |
| 356 - 366 |
A green pathway for hydrogenations on ionic liquid-stabilized nanoparticles
Jutz F, Andanson JM, Baiker A |
| 367 - 375 |
CO-TPR-DRIFTS-MS in situ study of CuO/Ce1-xTbxO2-y (x=0, 0.2 and 0.5) catalysts: Support effects on redox properties and CO oxidation catalysis
Hornes A, Bera P, Camara AL, Gamarra D, Munuera G, Martinez-Arias A |
| 376 - 383 |
Liquid-phase cascade acylation/dehydration over various zeolite catalysts to synthesize 2-methylanthraquinone through an efficient one-pot strategy
Hou QJ, Zheng BM, Bi CG, Luan JM, Zhao ZK, Guo HC, Wang GR, Li ZS |
| 384 - 389 |
On the mechanism of hydrogen-promoted gold-catalyzed CO oxidation
Quinet E, Piccolo L, Morfin F, Avenier P, Diehl F, Caps V, Rousset JL |
