Rhodium-Catalyzed Asymmetric Intramolecular Cyclopropanation of Substituted Allylic Cyanodiazoacetates

A chiral rhodium catalyst, Rh2[4S‐(4′)‐FBNAZ]4, was synthesized and was shown to catalyze the intramolecular cyclopropanation of substituted allylic cyanodiazoacetates. Alkenes bearing an electron‐deficient substituent including carbonyl and halogens are converted into the corresponding cyclopropane...

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Bibliographic Details
Published inAdvanced synthesis & catalysis Vol. 347; no. 11-13; pp. 1547 - 1552
Main Authors Lin, Wei, Charette, André B.
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 01.10.2005
WILEY‐VCH Verlag
Wiley
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Summary:A chiral rhodium catalyst, Rh2[4S‐(4′)‐FBNAZ]4, was synthesized and was shown to catalyze the intramolecular cyclopropanation of substituted allylic cyanodiazoacetates. Alkenes bearing an electron‐deficient substituent including carbonyl and halogens are converted into the corresponding cyclopropanes in high yields with both chiral and achiral rhodium catalysts. The cyclopropane derivatives were generated with an enantioselectivity of up to 91% ee. For the asymmetric intramolecular cyclopropanation, cis‐halogen‐substituted substrates afforded cyclopropanes with higher enantioselectivities than the corresponding trans diastereomers. However, only moderate enantioselectivities were observed with alkenes bearing electron‐donating groups such as alkyls. The cyclopropanation of 3‐substituted 2‐propenyl cyanodiazoacetates was strongly influenced by steric and electronic factors arising from substituents on the alkenes. For the first time, we demonstrated that the intramolecular reaction of gem‐dihaloallylic cyanodiazoacetate afforded highly functionalized gem‐dihalocyclopropanes. This reaction is an appealing alternative to the addition of dihalocarbenes to alkenes for the formation of gem‐dihalocyclopropanes.
Bibliography:ark:/67375/WNG-K3XFR3CN-M
istex:B0A77FD48A5AF18D5E983CC6BBA859408FB7770A
ArticleID:ADSC200505187
ISSN:1615-4150
1615-4169
DOI:10.1002/adsc.200505187