| 77 - 83 |
Insights into surface reactivity: formic acid oxidation on Cu(110) studied using STM and a molecular beam reactor
Bowker M, Bennett RA, Poulston S, Stone P |
| 85 - 93 |
Catalytic cycles for isobutane isomerization over sulfated-zirconia catalysts
Fogash KB, Hong Z, Dumesic JA |
| 95 - 104 |
Influence of intracrystalline diffusion in shape selective catalytic test reactions
Webb EB, Grest GS |
| 105 - 109 |
UV/HREELS spectroscopy of benzene on Pt(110)
Chen NC, Ford LP, Masel RI |
| 111 - 117 |
Redispersion of Pd on acidic supports and loss of methane combustion activity during the selective reduction of NO by CH4
Ali A, Chin YH, Resasco DE |
| 119 - 124 |
The effect of ZnO in methanol synthesis catalysts on Cu dispersion and the specific activity
Fujitani T, Nakamura J |
| 125 - 129 |
Titanium(IV) oxide photocatalyst of ultra-high activity: a new preparation process allowing compatibility of high adsorptivity and low electron-hole recombination probability
Kominami H, Murakami S, Kera Y, Ohtani B |
| 131 - 135 |
Effect of calcination temperature on the catalytic activity of Au colloids mechanically mixed with TiO2 powder for CO oxidation
Tsubota S, Nakamura T, Tanaka K, Haruta M |
| 137 - 144 |
Imaging of hydrocarbon reactions in zeolite packed-bed reactors using positron emission profiling
Anderson BG, Noordhoek NJ, Schuring D, de Gauw FJMM, de Jong AM, de Voigt MJA, van Santen RA |
| 145 - 148 |
Hydrocarbon conversion on ZSM-5 in the presence of N2O: Relative reactivity
Vereshchagin SN, Kirik NP, Shishkina NN, Anshits AG |
| 149 - 153 |
Selective oxidation of methane to methanol and formaldehyde over V2O5/SiO2 catalysts. Role of NO in the gas phase
Banares MA, Cardoso JH, Hutchings GJ, Bueno JMC, Fierro JLG |
| 155 - 158 |
Selective synthesis of 2-methylquinoline over zeolites
Reddy PR, Rao KVS, Subrahmanyam M |
| 159 - 164 |
On the acidity of liquid and solid acid catalysts: Part 1. A thermodynamic point of view
Marziano NC, Tortato C, Ronchin L, Bianchi C |
