739 - 739 |
Porous Materials: Small Holes -big Effects Schwieger W, Hartmann M |
763 - 768 |
Porous Materials - Short Prehistory and Early History Robens E |
769 - 777 |
Porous Materials at a Glance Schuth F |
779 - 804 |
A new view of diffusion in nanoporous materials Chmelik C, Heinke L, Valiullin R, Karger J |
805 - 822 |
Spectroscopic characterization of porous Materials - State of the Art and Future Prospects Hartmann M |
823 - 828 |
Characterization of mesoporous Materials using Small-Angle Scattering (SAXS/SANS) Smarsly BM, Kaper H, Mascotto S, Weidmann C |
829 - 835 |
Mesoporous Glass Membranes as Model Systems on the Study of the Gas Diffusion through porous Media Stoltenberg D, Seidel-Morgenstern A, Enke D |
837 - 847 |
New nanoporous Molecular Sieve Membranes: Zeolites versus MOFs -Winners and Losers Caro J |
849 - 868 |
The composting on the Basis of Zeolites or ordered mesoporous Oxides for Applications in the Photonics and Sensors Wark M |
869 - 879 |
Network models for capillary porous media: application to drying technology Metzger T, Tsotsas E |
881 - 890 |
Modeling of Adsorption, Diffusion and catalytic Reactions in porous Media Keil FJ |
891 - 896 |
Zeolite Catalysis for the sustainable Chemistry Reschetilowski W |
897 - 903 |
Synthesis of microporous Carbon Foams for Catalytic Applications Glenk F, Schirmer M, Gutlein S, Etzold B |
905 - 909 |
Zirconia Particles with defined Particle Morphology and hierarchically structured Pore System with combined Exo and Endotemplate Syntesis With P, Heinrich A, Lutecki M, Fichtner S, Bohringer B, Glaser R |
911 - 919 |
Binder-free ZSM-5-Shaped Body on the Basis of porous Glass by in situ Cristallization: Preparation, Properties and catalytic Testing Rauscher M, Schwab A, Schwieger W |
921 - 928 |
Catalysts for the Production of Wall Microstructure Reactors using the Low Pressure Injection Technology Schwarz T, Schirrmeister S, Doring H, Klemm E |
929 - 940 |
Zeolites as Sorption Medium Schuman K, Unger B, Brandt A |