| 1 - 1 |
Catalysis with supported palladium metal at the turn of the 21st century - Foreword
Corain B, Kralik M |
| 3 - 18 |
Supported palladium catalysts for fine chemicals synthesis
Blaser HU, Indolese A, Schnyder A, Steiner H, Studer M |
| 19 - 59 |
Implication of palladium geometric and electronic structures to hydrogen activation on bulk surfaces and clusters
Efremenko I |
| 61 - 74 |
High resolution TEM studies on palladium nanoparticles
Jose-Yacaman M, Marin-Almazo M, Ascencio JA |
| 75 - 98 |
Synthesis of supported palladium catalysts
Toebes ML, van Dillen JA, de Jong YP |
| 99 - 115 |
Generating palladium nanoclusters inside functional cross-linked polymer frameworks
Corain B, Kralik M |
| 117 - 134 |
Bimetallic palladium catalysts: influence of the co-metal on the catalyst performance
Coq B, Figueras F |
| 135 - 184 |
Membrane reactors for hydrogenation and dehydrogenation processes based on supported palladium
Dittmeyer R, Hollein V, Daub K |
| 185 - 221 |
Hydrogenation of carbon-carbon multiple bonds: chemo-, regio- and stereo-selectivity
Molnar A, Sarkany A, Varga M |
| 223 - 230 |
Hydrogenation and hydrogenolysis of nitro-, nitroso-, azo-, azoxy- and other nitrogen-containing compounds on palladium
Figueras F, Coq B |
| 231 - 247 |
Catalysis with supported palladium metal, selectivity in the hydrogenation of C=C, C=O and C=N bonds, from chemo- to enantioselectivity
Tungler A, Fogassy G |
| 249 - 274 |
Palladium metal catalysts in Heck C-C coupling reactions
Biffis A, Zecca M, Basato M |
| 275 - 286 |
Poisoning and deactivation of palladium catalysts
Albers P, Pietsch J, Parker SF |
| 287 - 312 |
Supported palladium catalysts in environmental catalytic technologies for gaseous emissions
Centi G |
| 313 - 328 |
Supported bimetallic palladium catalysts for water-phase nitrate reduction
Prusse U, Vorlop KD |
| 329 - 345 |
Hydrogenolysis of organohalogen compounds over palladium supported catalysts
Urbano FJ, Marinas JM |
