| 1 - 7 |
Propane oxidative dehydrogenation on VOx/ZrO2 catalysts
Pieck CL, Banares MA, Fierro JLG |
| 8 - 17 |
Highly dispersed gold on activated carbon fibers for low-temperature CO oxidation
Bulushev DA, Yuranov I, Suvorova EI, Buffat PA, Kiwi-Minsker L |
| 18 - 27 |
Influence of reductant on the thermal stability of stored NOx in Pt/Ba/Al2O3 NOx storage and reduction traps
Liu ZQ, Anderson JA |
| 28 - 35 |
Structural characterization of high-performance catalysts for partial oxidation-the high-resolution and analytical electron microscopy approach
Wagner JB, Su DS, Schunk SA, Hibst H, Petzoldt J, Schlogl R |
| 36 - 41 |
Simultaneous removal of SO2 and NOx from flue gas using a CuO/Al2O3 catalyst sorbent I. Deactivation of SCR activity by SO2 at low temperatures
Xie GY, Liu ZY, Zhu ZP, Liu QY, Ge J, Huang ZG |
| 42 - 49 |
Simultaneous removal of SO2 and NOx from flue gas using a CuO/Al2O3 catalyst sorbent II. Promotion of SCR activity by SO2 at high temperatures
Xie GY, Liu ZY, Zhu ZP, Liu QY, Ge J, Huang ZG |
| 50 - 59 |
Observation of a compensation relation for monomolecular alkane cracking by zeolites: the dominant role of reactant sorption
van Bokhoven JA, Williams BA, Ji W, Koningsberger DC, Kung HH, Miller JT |
| 60 - 68 |
Kinetics of ethylene combustion in the synthesis of vinyl acetate over a Pd/SiO2 catalyst
Han YF, Kumar D, Sivadinarayana C, Goodman DW |
| 69 - 79 |
Surface modification of fluorinated aluminas: Application of solid state NMR spectroscopy to the study of acidity and surface structure
Chupas PJ, Grey CP |
| 80 - 93 |
On the mechanism of catalyzed isobutane/butene alkylation by zeolites
Feller A, Guzman A, Zuazo I, Lercher JA |
| 94 - 106 |
Hydrodesulfurization reaction pathways on MoS2 nanoclusters revealed by scanning tunneling microscopy
Lauritsen JV, Nyberg M, Norskov JK, Clausen BS, Topsoe H, Laegsgaard E, Besenbacher F |
| 107 - 114 |
Liquid-phase Knoevenagel reactions over modified basic microporous titanosilicate ETS-10
Goa Y, Wu P, Tatsumi T |
| 115 - 123 |
Kinetic studies of zeolite-catalyzed methylation reactions 1. Coreaction of [C-12]ethene and [C-13]methanol
Svelle S, Ronning PA, Kolboe S |
| 124 - 137 |
Incorporation of manganese and iron into the zirconia lattice in promoted sulfated zirconia catalysts
Jentoft FC, Hahn A, Krohnert J, Lorenz G, Jentoft RE, Ressler T, Wild U, Schlogl R, Hassner C, Kohler K |
| 138 - 147 |
DBT derivatives adsorption over molybdenum sulfide catalysts: a theoretical study
Cristol S, Paul JF, Payen E, Bougeard D, Hutschka F, Clemendot S |
| 148 - 155 |
Nitrous oxide decomposition and surface oxygen formation on Fe-ZSM-5
Wood BR, Reimer JA, Bell AT, Janicke MT, Ott KC |
| 156 - 163 |
Grafting TiO2 on MCM-41 as a TiO2 support for vanadia for catalytic oxidation of ethanol-EXAFS and XANES analyses of vanadium
Lin HM, Kao ST, Lin KM, Chang JR, Shyu SG |
| 164 - 169 |
A calorimetric study of the acidity of bulk and silica-supported heteropoly acid H3PW12O40
Kozhevnikova EF, Kozhevnikov IV |
| 170 - 177 |
Hybrid organic - inorganic catalysts: a cooperative effect between support, and palladium and nickel salen complexes on catalytic hydrogenation of imines
Ayala V, Corma A, Iglesias M, Rincon JA, Sanchez F |
| 178 - 186 |
Mesoporous H-GaMCM-48: A remarkable solid acid catalyst for tertiary butylation of phenol
Dapurkar SE, Selvam P |
| 187 - 196 |
Deactivation of a commercial catalyst in the epoxidation of ethylene to ethylene oxide-basis for accelerated testing
Boskovic G, Wolf D, Bruckner A, Baerns M |
| 197 - 205 |
Growing mechanism of CNTs: a kinetic approach
Perez-Cabero M, Romeo E, Royo C, Monzon A, Guerrero-Ruiz A, Rodriguez-Ramos I |
| 206 - 217 |
The Bronsted-Evans-Polanyi relation and the volcano curve in heterogeneous catalysis
Bligaard T, Norskov JK, Dahl S, Matthiesen J, Christensen CH, Sehested J |
| 218 - 223 |
Preparation of a novel catalyst UDCaT-5: enhancement in activity of acid-treated zirconia-effect of treatment with chlorosulfonic acid vis-a-vis sulfuric acid
Yadav GD, Murkute AD |
| 224 - 228 |
Efficient, regioselective epoxidation of dienes with hydrogen peroxide catalyzed by [gamma-SiW10O34(H2O)2](4-)
Kamata K, Nakagawa Y, Yamaguchi K, Mizuno N |
