| 1 - 1 |
Catalysis and synthetic fuels: State of the art and outlook Preface
Khodakov AY, Holmen A, Mirodatos C, Wang Y |
| 2 - 7 |
Promoter segregation in Pt and Ru promoted cobalt model catalysts during oxidation-reduction treatments
Weststrate CJ, Saib AM, Niemantsverdriet JW |
| 8 - 12 |
Study of temperature-programmed calcination of cobalt-based catalysts under NO-containing atmosphere
Becker H, Turek T, Guttel R |
| 13 - 17 |
Fischer-Tropsch synthesis: Activity of metallic phases of cobalt supported on silica
Gnanamani MK, Jacobs G, Shafer WD, Davis BH |
| 18 - 23 |
How does activation affect the cobalt crystallographic structure? An in situ XRD and magnetic study
Braconnier L, Landrivon E, Clemencon I, Legens C, Diehl F, Schuurman Y |
| 24 - 28 |
Controllable encapsulation of cobalt clusters inside carbon nanotubes as effective catalysts for Fischer-Tropsch synthesis
Xing C, Yang GH, Wang D, Zeng CY, Jin YZ, Yang RQ, Suehiro Y, Tsubaki N |
| 29 - 35 |
Tandem catalytic synthesis of light isoparaffin from syngas via Fischer-Tropsch synthesis by newly developed core-shell-like zeolite capsule catalysts
Yang GH, Xing C, Hirohama W, Jin YZ, Zeng CY, Suehiro Y, Wang TJ, Yoneyama Y, Tsubaki N |
| 36 - 42 |
Structure sensitivity of CO methanation on Co (0001), (10-12) and (11-20) surfaces: Density functional theory calculations
Liu JX, Su HY, Li WX |
| 43 - 51 |
Influence of operating conditions in a continuously stirred tank reactor on the formation of carbon species on alumina supported cobalt Fischer-Tropsch catalysts
Pena D, Griboval-Constant A, Lecocq V, Diehl F, Khodakov AY |
| 52 - 59 |
Deactivation of a Co/Al2O3 Fischer-Tropsch catalyst by water-induced sintering in slurry reactor: Modeling and experimental investigations
Sadeqzadeh M, Chambrey S, Piche S, Fongarland P, Luck F, Curulla-Ferre D, Schweich D, Bousquet J, Khodakov AY |
| 60 - 66 |
The effect of alkali and alkaline earth elements on cobalt based Fischer-Tropsch catalysts
Lillebo AH, Patanou E, Yang J, Blekkan EA, Holmen A |
| 67 - 72 |
Poisoning of cobalt catalyst used for Fischer-Tropsch synthesis
Sparks DE, Jacobs G, Gnanamani MK, Pendyala VRR, Ma WP, Kang J, Shafer WD, Keogh RA, Graham UM, Gao P, Davis BH |
| 73 - 79 |
Fischer-Tropsch synthesis. Effect of alkali, bicarbonate and chloride addition on activity and selectivity
Ma WP, Jacobs G, Kang J, Sparks DE, Gnanamani MK, Pendyala VRR, Shafer WD, Keogh RA, Graham UM, Thomas GA, Davis BH |
| 80 - 85 |
Fischer-Tropsch synthesis over precipitated iron catalysts supported on carbon
Asami K, Iwasa A, Igarashi N, Takemiya S, Yamamoto K, Fujimoto K |
| 86 - 94 |
Carbon nanotube-supported Fe-Mn nanoparticles: A model catalyst for direct conversion of syngas to lower olefins
Xu JD, Zhu KT, Weng XF, Weng WZ, Huang CJ, Wan HL |
| 95 - 102 |
Effect of precursor on the catalytic performance of supported iron catalysts for the Fischer-Tropsch synthesis of lower olefins
Galvis HMT, Koeken ACJ, Bitter JH, Davidian T, Ruitenbeek M, Dugulan AI, de Jong KP |
| 103 - 111 |
Kinetic analysis and microstructured reactors modeling for the Fischer-Tropsch synthesis over a Co-Re/Al2O3 catalyst
Almeida LC, Sanz O, Merino D, Arzamendi G, Gandia LM, Montes M |
| 112 - 120 |
A comparison of cobalt and iron based slurry phase Fischer-Tropsch synthesis
Botes FG, Niemantsverdriet JW, van de Loosdrecht J |
| 121 - 130 |
Compact reactor for Fischer-Tropsch synthesis based on hierarchically structured Co catalysts: Towards better stability
Zhu J, Yang J, Lillebo AH, Zhu Y, Yu YD, Holmen A, Chen D |
| 131 - 141 |
Chevron's gas conversion catalysis-hybrid catalysts for wax-free Fischer-Tropsch synthesis
Kibby C, Jothimurugesan K, Das T, Lacheen HS, Rea T, Saxton RJ |
| 142 - 151 |
Towards'greener' catalyst manufacture: Reduction of wastewater from the preparation of Cu/ZnO/Al2O3 methanol synthesis catalysts
Prieto G, de Jong KP, de Jongh PE |
| 152 - 161 |
A simple and efficient approach to confine Cu/ZnO methanol synthesis catalysts in the ordered mesoporous SBA-15 silica
Garcia-Trenco A, Martinez A |
| 162 - 168 |
Supported molybdenum carbide for higher alcohol synthesis from syngas
Wu QX, Christensen JM, Chiarello GL, Duchstein LDL, Wagner JB, Temel B, Grunwaldt JD, Jensen AD |
| 169 - 175 |
Hydrogenation of CO on molybdenum and cobalt molybdenum carbide catalysts-Mass and infrared spectroscopy studies
Aoki Y, Tominaga H, Nagai M |
| 176 - 185 |
Enabling small-scale methanol synthesis reactors through the adoption of highly conductive structured catalysts
Montebelli A, Visconti CG, Groppi G, Tronconi E, Ferreira C, Kohler S |
| 186 - 193 |
Synthesis of lower olefins by hydrogenation of carbon dioxide over supported iron catalysts
Wang JJ, You ZY, Zhang QH, Deng WP, Wang Y |
| 194 - 200 |
Combinations of CO/CO2 reactions with Fischer-Tropsch synthesis
Iglesias M, Edzang R, Schaub G |
| 201 - 207 |
Catalytic CO2 valorization into CH4 on Ni-based ceria-zirconia. Reaction mechanism by operando IR spectroscopy
Aldana PAU, Ocampo F, Kobl K, Louis B, Thibault-Starzyk F, Daturi M, Bazin P, Thomas S, Roger AC |
| 208 - 215 |
Enhanced stability in the methanol-to-olefins process shown by SAPO-34 catalysts synthesized in biphasic medium
Alvaro-Munoz T, Marquez-Alvarez C, Sastre E |
| 216 - 223 |
The influence of catalyst acid strength on the methanol to hydrocarbons (MTH) reaction
Erichsen MW, Svelle S, Olsbye U |
| 224 - 232 |
Single-Event MicroKinetics (SEMK) for Methanol to Hydrocarbons (MTH) on H-ZSM-23
Kumar P, Thybaut JW, Teketel S, Svelle S, Beato P, Olsbye U, Marin GB |
| 233 - 238 |
High temperature methanation: Catalyst considerations
Nguyen TTM, Wissing L, Skjoth-Rasmussen MS |
| 239 - 242 |
Methanol dehydration over commercially available zeolites: Effect of hydrophobicity
Vanoye L, Favre-Reguillon A, Rodriguez MF, Dupuy S, Pallier S, Pitault I, De Bellefon C |
| 243 - 250 |
Low-scale direct methane to methanol - Modern status and future prospects
Arutyunov V |
| 251 - 259 |
Effect of reflux digestion treatment on the catalytic performance of Ni-CaO-ZrO2 nanocomposite catalysts for CO2 reforming of CH4
Chen QJ, Zhang J, Jin QW, Pan BR, Kong WB, Zhao TJ, Sun YH |
| 260 - 266 |
Production of ethanol by gas phase hydrogenation of acetic acid over carbon nanotube-supported Pt-Sn nanoparticles
Zhang SB, Duan XP, Ye LM, Lin HQ, Xie ZX, Yuan YZ |
| 267 - 275 |
Ethylene oligomerisation over Co/SiO2 in the presence of trace carbon monoxide: The Eidus reaction revisited
Cant NW, Liu IOY, Scott JA |
