| 371 - 372 |
Phase separable homogeneous catalysis - Preface
Hanson BE, Zoeller JR |
| 373 - 379 |
Aqueous biphasic catalysis : Where the reaction takes place
Wachsen O, Himmler K, Cornils B |
| 381 - 388 |
Transition metal catalysis in fluorous media : application of a new immobilization principle to rhodium-catalyzed hydrogenation of alkenes
Rutherford D, Juliette JJJ, Rocaboy C, Horvath IT, Gladysz JA |
| 389 - 397 |
The use of soluble polymers to effect homogeneous catalyst separation and reuse
Bergbreiter DE |
| 399 - 411 |
Supramolecular transition metal catalysts in two-phase systems
Reetz MT |
| 413 - 420 |
Palladium catalyzed P-C coupling - a powerful tool for the syntheses of hydrophilic phosphines
Herd O, Hessler A, Hingst M, Machnitzki P, Tepper M, Stelzer O |
| 421 - 429 |
Amphiphilic phosphines for catalysis in the aqueous phase
Hanson BE, Ding H, Kohlpaintner CW |
| 431 - 440 |
Various approaches to transfers improvement during biphasic catalytic hydroformylation of heavy alkenes
Kalck P, Miquel L, Dessoudeix M |
| 441 - 448 |
The effects of pH on the molecular distribution of water soluble ruthenium(II) hydrides and its consequences on the selectivity of the catalytic hydrogenation of unsaturated aldehydes
Joo F, Kovacs J, Benyei AC, Katho A |
| 449 - 458 |
Catalytic conversions in water, part 8 : carbonylation and hydrocarboxylation reactions catalyzed by palladium trisulfonated triphenylphosphine complexes
Verspui G, Papadogianakis G, Sheldon RA |
| 459 - 470 |
Catalytic asymmetric hydrogenation in micellar media with amphiphilic and non-amphiphilic ligands
Oehme G, Grassert I, Ziegler S, Meisel R, Fuhrmann H |
| 471 - 478 |
Palladium(0) allylic alkylation in a two-phase system or with a supported aqueous phase catalyst
Choplin A, Dos Santos S, Quignard F, Sigismondi S, Sinou D |
