| 1 - 1 |
Preface
Stangland EE, Chin C, Guo XW, Simonetti D |
| 2 - 11 |
Hybrid catalytic materials with CO2 capture and oxygen transfer functionalities for high-purity H-2 production
Antzaras AN, Heracleous E, Lemonidou AA |
| 12 - 18 |
Circumventing carbon formation in CO2 reforming of methane by an adiabatic post conversion reactor
Mortensen PM, Rautenbach M |
| 19 - 30 |
Perovskite-type catalysts based on nickel applied in the Oxy-CO2 reforming of CH4: Effect of catalyst nature and operative conditions
da Silva BC, Bastos PHC, Roberto BS, Checca NR, Frety R, Brandao ST |
| 31 - 47 |
Effect of Manganese and zeolite composition on zeolite-supported Ni-catalysts for dry reforming of methane
Najfach AJ, Almquist CB, Edelmann RE |
| 48 - 61 |
Effects of metal dusting relevant exposures of alloy 601 surfaces on carbon formation and oxide development
Guo XY, Vanhaecke E, Vullum PE, Ma JY, Gunawardana PVDS, Walmsley JC, Chen D, Venvik HJ |
| 62 - 68 |
Plasma-metal oxides coupling for CH4-CO2 & nbsp;transformation into syngas and/or hydrocarbons, oxygenates
Bouchoul N, Fourre E, Duarte A, Tanchoux N, Louste C, Batiot-Dupeyrat C |
| 69 - 76 |
Development of polyethylenimine (PEI)-impregnated mesoporous carbon spheres for low-concentration CO2 capture
Chen QJ, Wang SY, Rout KR, Chen D |
| 77 - 87 |
Niobium-based solid acids in combination with a methanol synthesis catalyst for the direct production of dimethyl ether from synthesis gas
Mejia CH, Verbart DMA, de Jong KP |
| 88 - 94 |
More efficient ethanol synthesis from dimethyl ether and syngas over the combined nano-sized ZSM-35 zeolite with CuZnAl catalyst
Feng XB, Yao J, Zeng Y, Cui Y, Kazumi S, Prasert R, Liu GB, Wu JH, Yang GH, Tsubaki N |
| 95 - 104 |
Influence of the Zn/Zr ratio in the support of a copper-based catalyst for the synthesis of methanol from CO2
L'hospital V, Angelo L, Zimmermann Y, Parkhomenko K, Roger AC |
| 105 - 111 |
Influence of Cu-speciation in mordenite on direct methane to methanol conversion: Multi-Technique characterization and comparison with NH3 selective catalytic reduction of NOx
Pappas DK, Kvande K, Kalyva M, Dyballa M, Lomachenko KA, Arstad B, Borfecchia E, Bordiga S, Olsbye U, Beato P, Svelle S |
| 112 - 122 |
Crucial factors to maximize DME productivity on hydrophobic bifunctional Cu-ZnO-Al2O3/ferrierite by direct CO2 hydrogenation
Ham H, Xuan NT, Jung HS, Kim J, Roh HS, Bae JW |
| 123 - 128 |
Methoxy ad-species in MFI zeotypes during methane exposure and methanol desorption followed by in situ IR spectroscopy
Creci S, Wang XT, Carlsson PA, Martinelli A, Skoglundh M |
| 129 - 143 |
Fischer-Tropsch synthesis: Direct cobalt nitrate reduction of promoted Co/Al2O3 catalysts
Mehrbod M, Martinelli M, Castro JD, Alhraki N, Cronauer DC, Kropf AJ, Marshall CL, Jacobs G |
| 144 - 149 |
Role of surface carboxylate deposition on the deactivation of cobalt on titania Fischer-Tropsch catalysts
Gonugunta P, Dugulan AI, Bezemer GL, Bruck E |
| 150 - 157 |
Fischer-Tropsch synthesis over an alumina-supported cobalt catalyst in a fixed bed reactor-Effect of process parameters
Gavrilovic L, Jorgensen EA, Pandey U, Putta KR, Rout KR, Rytter E, Hillestad M, Blekkan EA |
| 158 - 166 |
Fischer-Tropsch synthesis to lower alpha-olefins over cobalt-based catalysts: Dependence of the promotional effect of promoter on supports
Jiang F, Wang SS, Zheng J, Liu B, Xu YB, Liu XH |
| 167 - 174 |
Bimetallic Ni-Co catalysts for co-production of methane and liquid fuels from syngas
Liu Y, Chen YM, Yu HP, Guan F, Hou ZG, Cui DC, Zhang Y |
| 175 - 183 |
Conversion of synthesis gas to aromatics at medium temperature with a fischer tropsch and ZSM-5 dual catalyst bed
Weber JL, del Monte DM, Beerthuis R, Dufour J, Martos C, de Jong KP, de Jongh PE |
| 184 - 192 |
Different mechanisms of ethane aromatization over Mo/ZSM-5 and Ga/ZSM-5 catalysts
Uslamin EA, Saito H, Sekine Y, Hensen EJM, Kosinov N |
| 193 - 202 |
Co-catalyst free ethene dimerization over Zr-based metal-organic framework (UiO-67) functionalized with Ni and bipyridine
Komurcu M, Lazzarini A, Kaur G, Borfecchia E, Oien-Odegaard S, Gianolio D, Bordiga S, Lillerud KP, Olsbye U |
| 203 - 209 |
Evaluation and analysis of ethylene production using oxidative dehydrogenation
Gaffney AM, Sims JW, Martin VJ, Duprez NV, Louthan KJ, Roberts KL |
| 210 - 220 |
Catalyst-assisted DBD plasma for coupling of methane: Minimizing carbon-deposits by structured reactors
Garcia-Moncada N, van Rooij G, Cents T, Lefferts L |
| 221 - 226 |
Activity differences of rutile and anatase TiO2 polymorphs in catalytic HBr oxidation
Paunovic V, Rellan-Pineiro M, Lopez N, Perez-Ramirez J |
| 227 - 234 |
Understanding of K and Mg co-promoter effect in ethylene oxychlorination by operando UV-vis-NIR spectroscopy
Ma HF, Fenes E, Qi YY, Wang YL, Rout KR, Fuglerud T, Chen D |
