| 122 - 122 |
From the editor
Szyprowski AJ |
| 123 - 125 |
The people of Polish chemistry - Tadeusz Paryjczak
Jozwiak WK |
| 126 - 128 |
DECHEMA reports on trends in product development - Report No. 13: Catalysis - Catalysts that are the driving forces of chemical processes - Environmental protection. Petrochemistry, fine chemicals and pharmaceuticals. Biocatalysts
[Anonymous] |
| 134 - 137 |
The reducibility of Fe2O3 and supported Ru/Fe2O3 catalysts
Jozwiak WK, Maniecki TP, Gebauer D |
| 138 - 141 |
Temperature-programmed reduction (TPR) studies on strong metal-support (SMSI) and strong oxide-oxide (S00I) interactions
Kijenski J, Winiarek P, Osawaru O, Lewicki A |
| 142 - 145 |
The PEAK-4 instrument for studying catalysts by temperature-programmed methods
Kocemba I |
| 146 - 148 |
The chemisorptive and catalytic characteristics of the ruthenium/carbon systems used for synthesis of ammonia
Kowalczyk Z, Rarog-Pilecka W, Szmigiel D, Zielinski J |
| 149 - 151 |
Preparation and studies on carbon nanotubes
Kalenczuk RJ, Borowiak-Palen E |
| 152 - 155 |
The use of differenial thermal analysis and thermogravimetry for studying catalytic oxidation of soot
Sarbak Z |
| 156 - 160 |
Temperature-programmed decomposition of the precursors of supported M/SiO2 catalysts
Szubiakiewicz E, Jozwiak W, Maniecki T |
| 161 - 163 |
Temperature-programmed studies on carbon deposits formed on supported cobalt catalysts
Grams J, Goralski J, Paryjczak T |
| 164 - 169 |
The Al2O3-TiO2 and SiO2-TiO2 supported hydrorefining and hydrogenation catalysts
Grzechowiak JR |
| 170 - 173 |
Synthetic hydrotalcites as precursors of highly dispersed oxide catalysts
Dziembaj R, Kustrowski P, Chmielarz L |
| 174 - 177 |
Temperature-programmed reduction (TPR) studies on supported metal catalysts. The measuring methodology and data interpretation
Zielnski J |
| 178 - 181 |
Studies on supported palladium-containing catalysts by temperature-programmed methods
Bonarowska M, Skotak M, Karpinski Z |
| 182 - 186 |
A contribution to the study on the kinetics of oxidative dehydrogenation of isobutyraldehyde
Cicmanec P, Bulanek R, Tichy J |
| 187 - 192 |
Temperature-programmed techniques applied to study the catalysts used to reform methane with carbon dioxide
Rynkowski J, Lewicki A |
| 193 - 198 |
The investigative potential of computer simulation methods as applied to the reforming reaction of methane with carbon dioxide
Bartczak WM, Stawowska J |
| 199 - 206 |
The use of time-of-flight secondary ion mass spectrometry (TOF-SIMS) for solid surface studies
Paryjczak T, Szynkowska MI |
| 207 - 210 |
Thermogravimetric studies on the reactions in the solid-gas system
Arabczyk W, Narkiewicz U, Konicki W, Wrobel R, Bay B, Wozniak R |
| 211 - 215 |
Temperature-programmed desorption (TPD) studies on catalyst surface acidity
Fiedorow R |
| 216 - 220 |
Temperature-programmed method studies on silver-modified manganese-lanthanum perovskite catalysts used in flameless combustion of methane
Machocki A, Ioannides T, Stasinska B, Gac W, Denis A, Pasieczna S |
| 221 - 225 |
Temperature-programmed desorption of alkali metals from model and real catalyst surfaces
Kotarba A, Dmytrzyk J, Kruk I |
| 226 - 229 |
Thermogravimetric studies on the adsorption of alkanes on zeolites HZSM-5 and HY
Makowski W, Majda D, Dziembaj R |
| 230 - 233 |
The effect of reduction temperature on the specific and active surface areas of a commercial ammonia synthesis prereduced iron catalyst
Jasinska I, Lubkowski K, Arabczyk W |
| 234 - 239 |
The effect of double modification of the whiting surface on the activity of whiting used as filler in elastomers
Lipinska M, Zaborski M |
| 240 - 243 |
The necessity to monitor mercury concentration in the environment
Szynkowska MI, Lesniewska E, Paryjczak T |
