| 1 - 1 |
The future of catalytic research - Preface
Derouane E, Kung HH |
| 3 - 15 |
Axially chiral monophosphine ligands (MOPs) and their use for palladium-catalyzed asymmetric hydrosilylation of olefins
Hayashi T |
| 17 - 22 |
Novel heterobimetallic asymmetric catalysis directing toward enzymatic function
Sasai H, Arai T, Watanabe S, Shibasaki M |
| 23 - 34 |
Polymerization catalysis
Kaminsky W |
| 35 - 50 |
Twenty-five years after introduction of automotive catalysts: what next?
Shelef M, McCabe RW |
| 51 - 65 |
Environmental catalysis for stationary applications
Forzatti P |
| 67 - 75 |
Catalytic degradation of polystyrene into styrene and a design of recyclable polystyrene with dispersed catalysts
Ukei H, Hirose T, Horikawa S, Takai Y, Taka M, Azuma N, Ueno A |
| 77 - 90 |
Catalysis science and technology for cleaner transportation fuels
Kaufmann TG, Kaldor A, Stuntz GF, Kerby MC, Ansell LL |
| 91 - 99 |
Ethylene and propene by oxidative dehydrogenation of ethane and propane - 'Performance of rare-earth oxide-based catalysts and development of redox-type catalytic materials by combinatorial methods'
Buyevskaya OV, Wolf D, Baerns M |
| 101 - 114 |
A new model for the metal-support interaction - Evidence for a shift in the energy of the valence orbitals
Miller JT, Mojet BL, Ramaker DE, Koningsberger DC |
| 115 - 130 |
Environmentally benign manufacturing of fine and intermediate chemicals
Hoelderich WF |
| 131 - 131 |
Strategy for the coupling of photochemical and biological flow reactors useful in mineralization of biorecalcitrant industrial pollutants (vol 54, pg 341, 1999)
Pulgarin C, Invernizzi M, Parra S, Sarria V, Polania R, Peringer P |
