| 1 - 1 |
Preface
Davis BH, Hansen JB |
| 2 - 5 |
50 years in catalysis. Lessons learned
Rostrup-Nielsen JR |
| 6 - 13 |
Computational catalyst screening: Scaling, bond-order and catalysis
Abild-Pedersen F |
| 14 - 18 |
Use of modeling in scale-up of steam reforming technology
Christiansen LJ |
| 19 - 24 |
Transport of sulfur in prereforming catalyst during steaming conditions
Ostberg M, Andersen VF |
| 25 - 31 |
Migrating Al species hindering NiO reduction on Al containing catalyst carriers
Lundegaard LF, Tiruvalam RR, Tyrsted C, Carlsson A, Morales-Cano F, Ovesen CV |
| 32 - 41 |
Activity study of NiO-based oxygen carriers in chemical looping steam methane reforming
Antzara A, Heracleous E, Silvester L, Bukur DB, Lemonidou AA |
| 42 - 48 |
Nanostructure and kinetic isotope effect of alkali-doped Pt/silica catalysts for water-gas shift and steam-assisted formic acid decomposition
Gao P, Graham UM, Shafer WD, Linganiso LZ, Jacobs G, Davis BH |
| 49 - 57 |
Using spilled over hydrogen in NH3 synthesis over supported Ru catalysts
Uner D, Aslan MY |
| 58 - 68 |
One-step hydrogen through water splitting with intrinsic CO2 capture in chemical looping
Sanfilippo D |
| 69 - 73 |
Product distribution change in the early stages of carbon monoxide hydrogenation over cobalt magnesium Fischer-Tropsch catalyst
Melaet G, Ralston WT, Liu WC, Somorjai GA |
| 74 - 79 |
Fischer Tropsch Synthesis using promoted cobalt-based catalysts
Iqbal S, Davies TE, Hayward JS, Morgan DJ, Karim K, Bartley JK, Taylor SH, Hutchings GJ |
| 80 - 86 |
Trapping mobile Pt species by PdO in diesel oxidation catalysts: Smaller is better
Xiong HF, Peterson E, Qi GS, Datye AK |
| 87 - 93 |
Impact of the synthesis route of supported copper catalysts on the performance in the methanol synthesis reaction
van den Berg R, Zecevic J, Sehested J, Helveg S, de Jongh PE, de Jong KP |
