Homogeneous asymmetric catalysis offers reliable results and the possibility to 'tune' the catalysis on a rational basis. A pitfall, however, is that the separation of the catalyst from the starting material and products is difficult and often results in the loss of the catalytic material. Immobilization offers a potential solution for the user of enantioselective catalysts in industrial processes and laboratories. Heterogeneous catalysis allows continuous operations, recycling of the catalyst, and an easy separation of the reaction products, reducing both waste and costs. Chemists in academia and industry will welcome this careful selection of topics in this handbook that provides readers with practical and detailed information about the technical requirements for the immobilization of chiral catalysts, their application in synthesis, and methods for recycling.

Dirk De Vos is the editor ofChiral Catalyst Immobilization and Recycling, published by Wiley.

Ivo F. J. Vankelecom is the editor ofChiral Catalyst Immobilization and Recycling, published by Wiley.

Pierre A. Jacobs is the editor ofChiral Catalyst Immobilization and Recycling, published by Wiley.

General concepts Mechanisms for chiral regcognition Heterogeneous chiral catalysis: academic and industrial challengesImmobilisation methods Inorganic supports Polymeric systems Organic transformations with chiral heterogeneous methods Hydrogenations: metallic Pt/Pd with chiral modifiers Hydrogenations: metallic Ni with chiral modifiers Hydrogenations, hydroformylations, hydrosilylation: complexes with P and N ligands Selective oxidations C-C bond formation from carbonyl compounds Polymerizations Reactions with immobilised enzymes Miscellaneous reactions Chiral heterogeneous catalysis: on the bench A practical approach Literature references and www-sites