| 1 - 14 |
Understanding ammonia selective catalytic reduction kinetics over Cu/SSZ-13 from motion of the Cu ions
Gao F, Walter ED, Kollar M, Wang YL, Szanyi J, Peden CHF |
| 15 - 26 |
Carbon-supported palladium catalysts for the direct synthesis of hydrogen peroxide from hydrogen and oxygen
Hu BZ, Deng WP, Li RS, Zhang QH, Wang Y, Delplanque-Janssens F, Paul D, Desmedt F, Miquel P |
| 27 - 35 |
Toward stable nickel catalysts for aqueous phase reforming of biomass-derived feedstock under reducing and alkaline conditions
van Haasterecht T, Ludding CCI, de Jong KP, Bitter JH |
| 36 - 43 |
Direct synthesis design of Cu-SAPO-18, a very efficient catalyst for the SCR of NOx
Martinez-Franco R, Moliner M, Corma A |
| 44 - 53 |
Selective vapor-phase hydrodeoxygenation of anisole to benzene on molybdenum carbide catalysts
Lee WS, Wang ZS, Wu RJ, Bhan A |
| 54 - 60 |
Direct evidence of active and inactive phases of Fe catalyst nanoparticles for carbon nanotube formation
Mazzucco S, Wang Y, Tanase M, Picher M, Li K, Wu ZJ, Irle S, Sharma R |
| 61 - 70 |
On the process for furfural and HMF oxidative esterification over Au/ZrO2
Menegazzo F, Fantinel T, Signoretto M, Pinna F, Manzoli M |
| 71 - 86 |
Limonene epoxidation with H2O2 promoted by Al2O3: Kinetic study, experimental design
Bonon AJ, Kozlov YN, Bahu JO, Maciel R, Mandelli D, Shul'pin GB |
| 87 - 94 |
Palladium supported on Al2O3-CeO2 modified with ionic liquids as a highly active catalyst of the Suzuki-Miyaura cross-coupling
Borkowski T, Dobosz J, Tylus W, Trzeciak AM |
| 95 - 109 |
Catalytic NO activation and NO-H-2 reaction pathways
Hibbitts DD, Jimenez R, Yoshimura M, Weiss B, Iglesia E |
| 110 - 118 |
SiO2-, Cu-, and Ni-supported Au nanoparticles for selective glycerol oxidation in the liquid phase
Kapkowski M, Bartczak P, Korzec M, Sitko R, Szade J, Balin K, Lelatko J, Polanski J |
| 119 - 126 |
Synthesis and characterization of novel cyclopentadienyl molybdenum imidazo[1,5-a]pyridine-3-ylidene complexes and their application in olefin epoxidation catalysis
Schmidt A, Grover N, Zimmermann TK, Graser L, Cokoja M, Pothig A, Kuhn FE |
| 127 - 135 |
Cu/Al2O3 catalysts modified with Pd for selective acetylene hydrogenation
McCue AJ, McRitchie CJ, Shepherd AM, Anderson JA |
| 136 - 141 |
Chemical transformations of acetone on ZnO powder
Gao J, Teplyakov AV |
| 142 - 149 |
Remarkable effects of hydroxyl species on low-temperature CO (preferential) oxidation over Ir/Fe(OH)(x) catalyst
Lin J, Qiao BT, Li L, Guan HL, Ruan CY, Wang AQ, Zhang WS, Wang XD, Zhang T |
| 150 - 154 |
Remarkable acceleration of the fructose dehydration over the adjacent Bronsted acid sites contained in an MFI-type zeolite channel
Wang M, Xia YF, Zhao L, Song CH, Peng LM, Guo XF, Xue NH, Ding WP |
| 155 - 162 |
Catalytic oxidation of carbon monoxide at cryogenic temperatures
Lee I, Zaera F |
| 163 - 173 |
Gold nanoparticles stabilized by task-specific ionic complexes: Quasi-homogeneous catalysts with self-separating nature for aerobic epoxidation of styrene
Zeng AF, Li Y, Su SP, Li DB, Hou B, Yu NY |
| 174 - 181 |
Dehydration of ethanol over heteropoly acid catalysts in the gas phase
Alharbi W, Brown E, Kozhevnikova EF, Kozhevnikov IV |
| 182 - 193 |
NO oxidation activity of Ag-doped perovskite catalysts
Yoon DY, Lim E, Kim YJ, Kim JH, Ryu T, Lee S, Cho BK, Nam IS, Choung JW, Yoo S |
| 194 - 199 |
Understanding promotion of photocatalytic activity of TiO2 by Au nanoparticles
Amrollahi R, Hamdy MS, Mul G |
| 200 - 210 |
From natural aluminosilicate minerals to hierarchical ZSM-5 zeolites: A nanoscale depolymerization-reorganization approach
Yue YY, Liu HY, Yuan P, Li TS, Yu CZ, Bi HT, Bao XJ |
| 211 - 219 |
The role of iodide promoters and the mechanism of ethylene carbonylation catalyzed by molybdenum hexacarbonyl
Yang CC, Kilos BA, Barton DG, Weitz E, Notestein JM |
| 220 - 231 |
Highly active and stable supported iron Fischer-Tropsch catalysts: Effects of support properties and SiO2 stabilizer on catalyst performance
Keyvanloo K, Hecker WC, Woodfield BF, Bartholomew CH |
| 232 - 238 |
Cooperative effects of secondary mesoporosity and acid site location in Pt/SAPO-11 on n-dodecane hydroisomerization selectivity
Kim MY, Lee K, Choi M |
| 239 - 246 |
Evaluation of an in situ spatial resolution instrument for fixed beds through the assessment of the invasiveness of probes and a comparison with a micro-kinetic model
Touitou J, Aiouache F, Burch R, Douglas R, Hardacre C, Morgan K, Sa J, Stewart C, Stewart J, Goguet A |
| 247 - 257 |
New Ti-incorporated MCM-36 as an efficient epoxidation catalyst prepared by pillaring MCM-22 layers with titanosilicate
Jin F, Chen SY, Jang LY, Lee JF, Cheng SF |
| 258 - 264 |
Propargylamine synthesis via sequential methylation and C-H functionalization of N-methylanilines and terminal alkynes under metal-organic framework Cu-2(BDC)(2)(DABCO) catalysis
Dang GH, Dang TT, Le DT, Truong T, Phan NTS |
| 265 - 273 |
Catalytic conversion of dimethyl ether into propylene over MCM-68 zeolite
Park S, Watanabe Y, Nishita Y, Fukuoka T, Inagaki S, Kubota Y |
| 274 - 282 |
In situ high-pressure high-temperature scanning tunneling microscopy of a Co(0001) Fischer-Tropsch model catalyst
Ehrensperger M, Wintterlin J |
| 283 - 296 |
Mechanistic interpretation of the effects of acid strength on alkane isomerization turnover rates and selectivity
Knaeble W, Carr RT, Iglesia E |
