Catalyst Immobilization, Separation, and Recovery

CONCEPTS FOR CATALYST IMMOBILIZATION ON SOLID SUPPORT
Immobilization strategies for stationary phases on chromatography supports
Catalyst immobilization on polymeric supports
Immobilization of catalysts on inorganic supports via covalent tethering
Immobilization via non-covalent interactions (physisorption and encapsulation)
Immobilization on layered anionic and cationic clay-type materials (layered double hydroxides and clays)
Catalysts deposit on structured surfaces
Sol-gel processing for catalyst immobilization
Immobilization of Brönsted, Lewis, and Basic Sites on support
Supported metal clusters, colloids, and nano-particles
Specificity of immobilization of chiral catalysts (solids for chirality transfer)
Immobilized polyoxometallates as heterogeneous catalysts
Status of molecular imprinting
Micro-encapsulation as catalyst immobilization technique
Immobilization techniques for biocatalysts
RECOVERY AND SEPARATION OF SOLUBLE CATALYSTS
Dendrimers as catalyst supports
Use of ionic liquids in catalyst recovery
Catalyst recovery from supercritical media
Multiphasic systems for catalyst recovery
Thermo-regulated catalyst recovery
Catalyst tag strategy for separation and recovery
Catalyst recovery in combination with use of membranes or thin films
IMMOBILIZATION OF CATALYSTS IN PRACTICE
Industrial Applications of immobilized chemo- and biocatalysts
Catalyst immobilization, separation and recovery in hydroformylation processes
Immobilization techniques for chiral catalysts
Immobilized catalysts for liquid phase oxidation
Immobilization of metathesis catalysts
Immobilized catalysts for C-C bond forming reactions
Immobilized Ziegler-Natta-type catalysts
Immobilization of metallocene-type polymerization catalysts
Immobilized catalysts in (bio)sensors
Immobilized photocatalysts