| 1 - 1 |
Preface - Challenges in alkane activation and selective oxidation
Ueda W |
| 3 - 10 |
A combined experimental and theoretical approach to the study of methane activation over oxide catalysts
Cooper CA, Hammond CR, Hutchings GJ, Taylor SH, Willock DJ, Tabata K |
| 11 - 19 |
Partial oxidation of methane into C-1-oxygenates: role of homogeneous reactions and catalyst surface area
Barbero JA, Banares MA, Pena MA, Fierro JLG |
| 21 - 29 |
Morphological effects of SnO2 thin film on the selective oxidation of methane
Kawabe T, Tabata K, Suzuki E, Ichikawa Y, Nagasawa Y |
| 31 - 36 |
Oxidative coupling of methane over Li+-added Y2O3 catalyst prepared from Y(OH)(3)
Takenaka S, Kaburagi T, Yamanaka I, Otsuka K |
| 37 - 45 |
Effects of lowering reaction temperatures in the direct selective oxidation of CH4-O-2-NO2-CH2O
Teng YH, Tabata K, Yamaguchi Y, Takemoto T, Suzuki E |
| 47 - 53 |
Selective oxidation of methane in CH4-O-2-NO2 over MoO3
Takemoto T, Tabata K, Teng YH, Dai LX, Suzuki E |
| 55 - 67 |
Catalytic dehydrocondensation of methane towards benzene and naphthalene on transition metal supported zeolite catalysts: templating role of zeolite micropores and characterization of active metallic sites
Shu YY, Ichikawa M |
| 69 - 76 |
Selective oxidation of light alkanes to aldehydes over silica catalysts supporting mononuclear active sites - acrolein formation from ethane
Kobayashi T |
| 77 - 82 |
Oxidation and ammoxidation of propane over Mo-V-Sb mixed oxide catalysts
Shishido T, Konishi T, Matsuura I, Wang Y, Takaki K, Takehira K |
| 83 - 88 |
Selective oxidation of propane over nickel molybdate modified with telluromolybdate
Fujikawa N, Wakui K, Tomita K, Ooue N, Ueda W |
| 89 - 96 |
Effects of additives on catalytic performance of heteropoly compounds for selective oxidation of light alkanes
Min JS, Mizuno N |
| 97 - 110 |
Main aspects of the selective oxidation of isobutane to methacrylic acid catalyzed by Keggin-type polyoxometalates
Cavani F, Mezzogori R, Pigamo A, Trifiro F, Etienne E |
| 111 - 119 |
Stability of iron in the Keggin anion of heteropoly acid catalysts for selective oxidation of isobutane
Knapp C, Ui T, Nagai K, Mizuno N |
| 121 - 128 |
Correlation with the redox V5+/V4+ ratio in vanadium phosphorus oxide catalysts for mild oxidation of n-butane to maleic anhydride
Abon M, Herrmann JM, Volta JC |
| 129 - 135 |
Oxidation of n-butane over vanadyl pyrophosphates prepared from lamellar vanadyl alkylphosphates
Hiyoshi N, Yamamoto N, Kamiya Y, Nishikawa E, Okuhara T |
| 137 - 143 |
Theoretical study of vanadium-catalyzed butane oxidation
Shimizu R, Fuchikami T |
| 145 - 152 |
New cumene-oxidation systems - O-2 activator effects and radical stabilizer effects
Matsui S, Fujita T |
| 153 - 159 |
Hydrothermal synthesis of novel crystalline Mo-V-M-O (M = Al, Ga, Fe) mixed oxide in the presence of triethylammonium chloride and their catalytic performance for selective ethane oxidation
Oshihara K, Nakamura Y, Sakuma M, Ueda W |
| 161 - 167 |
Insertion of iron-complex to lamellar vanadyl benzylphosphate for preparation of well-defined catalyst
Satsuma A, Kijima Y, Komai S, Kamiya Y, Nishikawa E, Hatttori T |
| 169 - 176 |
Selective oxidation of propylene to propylene oxide over Ti-MCM-41 supporting metal nitrate
Miyaji T, Wu P, Tatsumi T |
| 177 - 187 |
Investigation of oxidation states of titanium in titanium silicalite-1 by X-ray photoelectron spectroscopy
Hasegawa Y, Ayame A |
| 189 - 197 |
Partial oxidation of alkenes by a membrane catalyst utilizing fuel cell reactions
Yamanaka I, Komabayashi K, Nishi A, Otsuka K |
| 199 - 210 |
The direct partial oxidation of methane to organic oxygenates using a dielectric barrier discharge reactor as a catalytic reactor analog
Larkin DW, Lobban LL, Mallinson RG |
| 211 - 217 |
Conversion of methane for higher hydrocarbon fuel synthesis using pulsed discharge plasma method
Okumoto M, Mizuno A |
| 219 - 223 |
Acetylene and hydrogen from pulsed plasma conversion of methane
Yao SL, Nakayama A, Suzuki E |
