Download PDF
Synlett 1991; 1991(2): 73-79
DOI: 10.1055/s-1991-20632
account
© Georg Thieme Verlag, Rüdigerstr. 14, 70469 Stuttgart, Germany. All rights reserved. This journal, including all individual contributions and illustrations published therein, is legally protected by copyright for the duration of the copyright period. Any use, exploitation or commercialization outside the narrow limits set by copyright legislation, without the publisher's consent, is illegal and liable to criminal prosecution. This applies in particular to photostat reproduction, copying, cyclostyling, mimeographing or duplication of any kind, translating, preparation of microfilms, and electronic data processing and storage.

Polycyclic Cage Compounds as Intermediates in Organic Synthesis

Alan P. Marchand*
  • *Department of Chemistry, University of North Texas, Denton, Texas 76203-5068, USA
Further Information

Publication History

Publication Date:
07 March 2002 (online)

  PDF Download  Permissions and Reprints All articles of this category

The utility of polycyclic "cage" molecules as intermediates in organic synthesis and as templates for constructing more complex cage and non-cage polycyclic molecules is reviewed and evaluated via examination of the following examples: (i) Cage molecules have served as starting materials for the synthesis of polyquinane natural products. (ii) In some cases, base- or acid-promoted fragmentation of readily available, appropriately substituted carbocyclic cage systems leads to the formation of unusual aromatic products. (iii) New cage systems have been accessed from simple, readily available polycyclic cage ketones and diketones by employing a variety of ring expansion processes. (iv) New crown ethers and molecular clefts have been prepared by straightforward synthetic elaboration of a number of readily available cage systems and their immediate (non-cage) precursors. l. Introduction 2. Polyquinane Synthesis 3. Aromatization Processes 4. Ring Expansion Processes 5. Synthesis of Novel Crown Ethers and Molecular Clefts 6. Concluding Remarks