| 1 - 7 |
Investigation of ZSM-5 catalysts for dimethylether conversion using inelastic neutron scattering
Zachariou A, Hawkins A, Lennon D, Parker SF, Suwardiyanto, Matam SK, Catlow CRA, Collier P, Hameed A, McGregor J, Howe RF |
| 8 - 19 |
Effect of number and properties of specific sites on alumina surfaces for Pt-Al2O3 catalysts
Lee J, Jang EJ, Kwak JH |
| 20 - 27 |
Catalytic transformation of ethylene to propylene and butene over an acidic Ca-incorporated composite nanocatalyst
Ghashghaee M, Shirvani S |
| 28 - 34 |
Effect of reduction treatments (H-2 vs. CO) on the NO adsorption ability and the physicochemical properties of Pd/SSZ-13 passive NOx adsorber for cold start application
Ryou Y, Lee J, Kim Y, Hwang S, Lee H, Kim CH, Kim DH |
| 35 - 44 |
Hydrodeoxygenation of methyl laurate over the sulfur-free Ni/gamma-Al2O3 catalysts
Chen S, Zhou GL, Xie HM, Jiao ZJ, Zhang XM |
| 45 - 56 |
Highly selective molybdenum-based catalysts for ring hydrogenation and contraction
Mehdad A, Jentoft RE, Jentoft FC |
| 57 - 65 |
Iron contamination of FCC catalysts: Quantification of different crystalline phases and valence states
Souza NLA, Paniago R, Ardisson JD, Morgado E, Krambrock K |
| 66 - 74 |
Catalytic self-sustained combustion of toluene and reaction pathway over CuxMn1-xCe0.75Zr0.25/TiO2 catalysts
Zhao CC, Hao QL, Zhang Q, Yan NN, Liu JR, Dou BJ, Bin F |
| 75 - 85 |
Decomposition of glucose with in situ deoxygenation in a low H-2 pressure environment - Part I: Monometallic catalysts
Rogers KA, Zheng Y |
| 86 - 92 |
Highly dispersed Au, Ag and Au-Ag alloy nanoparticles encapsulated in single crystal multi-hollow silicalite-1
Atwi R, Tuel A, Maffre M, Burel L, Rousset JL, Meunier F |
| 93 - 100 |
Dehydration of fructose into 5-hydroxymethylfurfural in a biphasic system using EDTA as a temperature-responsive catalyst
Cao Z, Li M, Chen Y, Shen T, Tang CL, Zhu CJ, Ying HJ |
| 101 - 109 |
Highly selective semi-hydrogenation of acetylene over porous gold with twin boundary defects
Kameoka S, Krajci M, Tsai AP |
| 110 - 116 |
MIL-101 supported highly active single-site metal catalysts for tricomponent coupling
Sun WJ, Gao EQ |
| 117 - 125 |
Hydrous ruthenium oxide: A new generation remarkable catalyst precursor for energy efficient and sustainable production of gamma-valerolactone from levulinic acid in aqueous medium
Gundekari S, Srinivasan K |
| 126 - 133 |
Near-ambient temperature ozone decomposition kinetics on manganese oxide-based catalysts
Tatibouet JM, Valange S, Touati H |
| 134 - 140 |
Novel reactivation allows effective reuse of Nafion (R) super-acid nano-catalyst
Ponomareva E, Lopez-Martinez MA, Wiggere D, Morales MV, Melian-Cabrera I |
| 141 - 148 |
Palladium/Beta zeolite passive NOx adsorbers (PNA): Clarification of PNA chemistry and the effects of CO and zeolite crystallite size on PNA performance
Khivantsev K, Jaegers NR, Kovarik L, Prodinger S, Derewinski MA, Wang Y, Gao F, Szanyi J |
| 149 - 156 |
Aerobic oxidation of alkyl chain in alkylphenols over combination of Pt and Pd catalysts
Nakagawa Y, Tokuma K, Nakaji Y, Miyagawa A, Tamura M, Tomishige K |
| 157 - 169 |
Effect of catalyst preparation for the simultaneous removal of soot and NOX
Uran L, Gallego J, Li WY, Santamaria A |
| 170 - 174 |
Pd-catalysed formation of ester products from cascade reaction of 5-hydroxymethylfurfural with 1-hexene
Garcia-Suarez EJ, Paolicchi D, Li H, He J, Yang S, Riisager A, Saravanamurugan S |
| 175 - 180 |
Deactivation mechanism of Cu/Zeolite SCR catalyst under high-temperature rich operation condition
Kim YJ, Kim PS, Kim CH |
| 181 - 189 |
Mechanistic insight into the passive NOx adsorption in the highly dispersed Pd/HBEA zeolite
Mei DH, Gao F, Szanyi J, Wang Y |
| 190 - 195 |
Pd-Ni bimetallic nanoparticles supported on active carbon as an efficient catalyst for hydrodeoxygenation of aldehydes
Zhang JW, Sun KK, Li DD, Deng T, Lu GP, Cai C |
