| 1 - 2 |
Preface - Structure-function relationship in catalytic chemistry
Moro-oka Y, Yamazoe N, Kagawa S, Iwamoto M |
| 3 - 11 |
Synthesis and decomposition of formate on a Cu(111) surface - kinetic analysis
Nishimura H, Yatsu T, Fujitani T, Uchijima T, Nakamura J |
| 13 - 22 |
Reconstructive activation of bimetallic surfaces - Catalytic reduction of NO with H-2 on Pt(100), Pt(110), Rh(100), Rh(110) and bimetallic single crystal surfaces of Rh/Pt(100), Rh/Pt(110), Pt/Rh(100), and Pt/Rh(110)
Tanaka K, Sasahara A |
| 23 - 29 |
Michael addition of nitromethane to alpha,beta-unsaturated carbonyl compounds over solid base catalysts
Kabashima H, Tsuji H, Shibuya T, Hattori H |
| 31 - 41 |
In situ vibrational spectroscopic investigation of surface redox process of vanadyl pyrophosphate
Koyano G, Saito T, Misono M |
| 43 - 58 |
Silica-supported ytterbium oxide characterized by spectroscopic methods and acid-catalyzed reactions
Yamamoto T, Matsuyama T, Tanaka T, Funabiki T, Yoshida S |
| 59 - 71 |
Synergy between alpha-Sb2O4 and Fe-2(MaO(4))(3) during the first hours of the catalytic oxidation of isobutene to methacrolein
Xiong YL, Weng LT, Bertrand P, Ladriere J, Daza L, Ruiz P, Delmon B |
| 73 - 80 |
Direct decomposition of nitric oxide over stannate pyrochlore oxides: relationship between solid-state chemistry and catalytic activity
Teraoka Y, Torigoshi K, Yamaguchi H, Ikeda T, Kagawa S |
| 81 - 88 |
Structure-sensitive reaction over calcium oxide - decomposition of nitrous oxide
Satsuma A, Akahori R, Kato M, Komai S, Yoshida H, Hattori T |
| 89 - 100 |
The role of redox property of La2-x(Sr,Th)(x)CuO4 +/-lambda playing in the reaction of NO decomposition and NO reduction by CO
Wu Y, Zhao Z, Liu Y, Yang XG |
| 101 - 109 |
Hydrodesulfurization kinetics and mechanism of 4,6-dimethyldibenzothiophene over NiMo catalyst supported on carbon
Sakanishi K, Nagamatsu T, Mochida I, Whitehurst DD |
| 111 - 119 |
Decomposition of chlorofluorocarbons over metal phosphate catalysis II. Origin of the stability of AlPO4 and the location of Ce as a promoter
Takita Y, Wakamatsu H, Li GL, Moro-oka Y, Nishiguchi H, Ishihara T |
| 121 - 129 |
Intramolecularly selective decomposition of surfactant molecules on photocatalytic oxidative degradation over TiO2 photocatalyst
Ohtaki M, Sato H, Fujii H, Eguchi K |
| 131 - 142 |
Pillaring and photocatalytic property of partially substituted layered titanates, Na2Ti3-xMxO7 and K2Ti4-xMxO9 (M = Mn, Fe, Co, Ni, Cu)
Machida M, Ma XW, Taniguchi H, Yabunaka J, Kijima T |
| 143 - 153 |
Control of bandgap of iron oxide through its encapsulation into SiO2-based mesoporous materials
Iwamoto M, Abe T, Tachibana Y |
| 155 - 168 |
Characterization of Fe/ZSM-5 by isotopic exchange with O-18(2)
Voskoboinikov TV, Chen HY, Sachtler WMH |
| 169 - 182 |
Role of silanol groups in the incorporation of V in beta zeolite
Dzwigaj S, Massiani P, Davidson A, Che M |
| 183 - 191 |
Desorption behavior of ammonia from TiO2-based specimens - ammonia sensing mechanism of double-layer sensors with TiO2-based catalyst layers
Shimizu Y, Okamoto T, Takao Y, Egashira M |
| 193 - 200 |
Relationship between ethanol gas sensitivity and surface catalytic property of tin oxide sensors modified with acidic or basic oxides
Jinkawa T, Sakai G, Tamaki J, Miura N, Yamazoe N |
| 201 - 207 |
'Radical-controlled' oxidative polymerization of m-cresol catalyzed by mu-eta(2):eta(2)-peroxo dicopper(II) complex
Higashimura H, Fujisawa K, Moro-oka Y, Kubota M, Shiga A, Uyama H, Kobayashi S |
| 209 - 218 |
Design of an artificial molecular catalyst showing peptidase activity to the conserved sequence of HIV-1 envelope gp41
Hifumi E, Sakata H, Nango M, Uda T |
