1 - 9 |
Fischer-Tropsch synthesis: Effect of Pd, Pt, Re, and Ru noble metal promoters on the activity and selectivity of a 25%Co/Al2O3 catalyst Ma WP, Jacobs G, Keogh RA, Bukur DB, Davis BH |
10 - 17 |
Relation between hydrocarbon selectivity and cobalt particle size for alumina supported cobalt Fischer-Tropsch catalysts Rane S, Borg O, Rytter E, Holmen A |
18 - 23 |
Preparation of Pd/C designed for chiral modified catalyst: Comparison with Pd/TiO2 in enantioselective hydrogenation of alpha-phenylcinnamic acid Kubota T, Ogawa H, Okamoto Y, Misaki T, Sugimura T |
24 - 27 |
Validation of BET specific surface area for heterogeneous Ziegler-Natta catalysts based on alpha(s)-plot Taniike T, Chammingkwan P, Thang VQ, Funako T, Terano M |
28 - 35 |
Synthesis of TiO2 nanoparticles using novel titanium oxalate complex towards visible light-driven photocatalytic reduction of CO2 to CH3OH Truong QD, Le TH, Liu JY, Chung CC, Ling YC |
36 - 43 |
Thermal decomposition of bulk K-CoMoSx mixed alcohol catalyst precursors and effects on catalyst morphology and performance Menart MJ, Hensley JE, Costelow KE |
44 - 52 |
Polymerization of ethylene with (nBuCp)(2)ZrCl2 supported over mesoporous SBA-15 functionalized with sulfonic acid groups Casas E, van Grieken R, Escola JM |
53 - 62 |
Partial oxidation of methane to syngas on bulk NiAl2O4 catalyst. Comparison with alumina supported nickel, platinum and rhodium catalysts Lopez-Fonseca R, Jimenez-Gonzalez C, de Rivas B, Gutierrez-Ortiz JI |
63 - 71 |
Cobalt based hybrid Fischer-Tropsch synthesis catalyst for improved selectivity of hydrocarbons in the JP-8 carbon number range from a synthesis gas obtained from the pyrolysis of the MixAlco process derived sludge Teiseh EA, Capareda S, Rezenom YH |
72 - 78 |
Liquid phase hydrogenation of crotonaldehyde over copper incorporated in MCM-48 Gutierrez V, Dennehy M, Diez A, Volpe MA |
79 - 89 |
Effects of rehydration of alumina on its structural properties, surface acidity, and HDN activity of quinoline Li GC, Liu YQ, Tang Z, Liu CG |
90 - 95 |
Recyclable biocatalytic composites of lipase-linked magnetic macro-/nano-particles for glycerol carbonate synthesis Tudorache M, Protesescu L, Negoi A, Parvulescu VI |
96 - 103 |
Low temperature conversion of linear C-4 olefins using acid ZSM-5 zeolites with aluminum concentration gradient Henry M, Bulut M, Vermandel W, Sels B, Jacobs P, Minoux D, Nesterenko N, Dath JP |
104 - 111 |
Effect of catalyst and solvent on the furan ring rearrangement to cyclopentanone Hronec M, Fulajtarova K, Liptaj T |
112 - 119 |
Catalytic decomposition of 4-phenoxyphenol to aromatics over Pd/XCs2.5H0.5PW12O40/ACA (X=10, 20, 30, 40, and 50 wt%) catalysts Park HW, Hong UG, Lee YJ, Choi JH, Song IK |
120 - 130 |
SAPO-34 and ZSM-5 nanocrystals' size effects on their catalysis of methanol-to-olefin reactions Jang HG, Min HK, Lee JK, Hong SB, Seo G |
131 - 138 |
Vanadium(III) and vanadium(IV) catalysts in a membrane reactor for benzene hydroxylation to phenol and study of membrane material resistance Molinari R, Argurio P, Poerio T |
139 - 148 |
Effect of H2O on catalytic performance of manganese oxides in NO reduction by NH3 Hu PP, Huang ZW, Hua WM, Gu X, Tang XF |
149 - 154 |
Mesoporous solid acid catalysts of sulfated zirconia/SBA-15 derived from a vapor-induced hydrolysis route Chang BB, Fu J, Tian YL, Dong XP |
155 - 165 |
Highly dispersed Pt-Ir nanoparticles on titania nanotubes Toledo-Antonio JA, Angeles-Chavez C, Cortes-Jacome MA, Cuauhtemoc-Lopez I, Lopez-Salinas E, Perez-Luna M, Ferrat-Torres G |
166 - 172 |
Catalytic performances of ceria and ceria-zirconia materials for the combustion of diesel soot under NOx/O-2 and O-2. Importance of the cerium precursor salt Guillen-Hurtado N, Bueno-Lopez A, Garcia-Garcia A |
173 - 183 |
Effective additives to improve hydrothermal aging of DME reforming catalyst in terms of hydrogen yield and de-NOx performance of RC plus LNT combined system Park S, Choi B, Kim H, Lee YJ |
184 - 189 |
Synthesis of peroxyesters in tri-liquid system using quaternary onium salts and polyethylene glycols as phase-transfer catalysts Baj S, Siewniak A, Bijak K |