Construction of Cyclopentanol Derivatives via Three-Component Coupling of Silyl Glyoxylates, Acetylides, and Nitroalkenes.

Greg Boyce; Shubin Liu; Jeffrey S. Johnson

Back

Journal article

Construction of Cyclopentanol Derivatives via Three-Component Coupling of Silyl Glyoxylates, Acetylides, and Nitroalkenes.

Greg Boyce, Shubin Liu and Jeffrey S. Johnson

Organic Letters

01-11-2012

Abstract

The three-component coupling of Mg acetylides, silyl glyoxylates, and nitroalkenes results in a highly diastereoselective Kuwajima–Reich/vinylogous Michael cascade that provides tetrasubstituted silyloxyallene products. The regio- and diastereoselectivity were studied using DFT calculations. These silyloxyallenes were converted to cyclopentenols and cyclopentitols via a unique Lewis acid assisted Henry cyclization. The alkene functionality present in the cyclopentanol products can be elaborated using diastereoselective ketohydroxylation reactions.

Files and links (1)

url

https://doi.org/10.1021/ol2033527View

Metrics

5 Record Views

Details

Title: Construction of Cyclopentanol Derivatives via Three-Component Coupling of Silyl Glyoxylates, Acetylides, and Nitroalkenes.
Creators: Greg Boyce (Author) - Department of Chemistry & Physics
Shubin Liu (Author)
Jeffrey S. Johnson (Author)
Publication Details: Organic Letters
Format: text
Number of pages: 1 online resource
Identifiers: fgcu_ir_000488; 99383341649206570
Copyright: http://rightsstatements.org/vocab/InC/1.0/
Academic Unit: Department of Chemistry & Physics
Resource Type: Journal article