Cyclodextrin Molecular Reactors

Date

2004

Authors

Barr, Lorna
Dumanski, Paul
Easton, Christopher
Harper, Jason B
Lee, Kitty
Lincoln, Stephen F
Meyer, Adam G
Simpson, Jamie S

Journal Title

Journal ISSN

Volume Title

Publisher

Kluwer Academic Publishers

Abstract

The ability of cyclodextrins to form inclusion complexes with hydrophobic species in aqueous solution makes them well-suited to the development of molecular reactors, to be used as miniature reaction vessels in order to control the outcomes of chemical transformations at the molecular level. In this manner, reaction rates can be increased and products may be obtained that are different to those normally accessible from reactions in free solution. Examples used to illustrate these effects include: the application of cyclodextrins to control the regioselectivity of bromination of aromatic substrates with pyridinium dichlorobromate; the use of a metallocyclodextrin to increase the rate of hydrolysis of a phosphate triester by almost five orders of magnitude; the development of modified cyclodextrins to increase the rates and reverse the regioselectivity of nitrile oxide cycloadditions; and the use of a cyclodextrin dimer to change the ratio of formation of indigoid dyes by a factor of more than 3500.

Description

Keywords

Keywords: cyclodextrin; aqueous solution; bromination; catalyst; chemical modification; chemical reaction; chemical reaction kinetics; complex formation; conference paper; cycloaddition; molecular dynamics Catalysts; Controlled assembly; Cyclodextrins; Molecular reactors; Regioselectivity; Self-assembly; Templates

Citation

Source

Journal of Inclusion Phenomena and Macrocyclic Chemistry

Type

Journal article

Book Title

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