| 549 - 558 |
New materials - The potential of modern synthetic chemistry
Herrmann WA |
| 559 - 562 |
About the rheology of polymer solutions - Part 1: A simple method for testing the consistency of data sets for the description of the rheology of polymer solutions
Werner F, Mersmann A |
| 562 - 565 |
Investigations into the mechanism of the deactivation of a palladium-supported catalyst by hydrogen sulfide poisoning
Feuerriegel U, Klose W |
| 565 - 570 |
Three-phase hydrogenations with microporous catalytic membranes
Tilgner IC, Lange C, Schmidt HW, Maier WF |
| 570 - 575 |
A method for fast determination of biocatalyst process stability
Boy M, Dominik A, Voss H |
| 575 - 579 |
Immobilization of transmembrane proteins in liquid crystal systems
Beutel S, Muller A, Frense D, Ulber R, Scheper T |
| 580 - 584 |
Porous materials made from starch
Hofmann T, Linke L, Tsiapouris A, Ziems A |
| 584 - 588 |
Maximizing the solids reduction by ozonization treatment before anaerobic thermophilic hydrolysis of ligno-cellulosic wastes
Tippe H, Mauch W |
| 588 - 592 |
Production of magnetite-bearing copper hydroxide flocs for eliminating copper from waste water
Franz M, Kampeis P, Franzreb M, Eberle SH |
| 593 - 597 |
Use of neural networks in the simulation and optimization of pressure swing adsorption processes
Lewandowski J, Lemcoff NO, Palosaari S |
| 599 - 604 |
Power consumption of a Rushton turbine mixing viscous Newtonian and shear-thinning fluids: Comparison between experimental and numerical results
Torrez C, Andre C |
| 605 - 609 |
Deactivation and selectivity pattern in crotonaldehyde hydrogenation
Consonni M, Touroude R, Murzin DY |
