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DOI: 10.1055/s-0033-1340406
Novel Atropisomeric Chiral Dienes in Lewis Base Organocatalysis
Atropisomeric Chiral Dienes in Asymmetric Catalysis: C 2-Symmetric (Z,Z)-2,3-Bis[1-(diphenylphosphynyl)-ethylidene]tetralin as a Highly Active Lewis Base Organocatalyst.
Angew. Chem. Int. Ed. 2013;
DOI: 10.1002/anie.201308112
Publication History
Publication Date:
13 December 2013 (online)
Significance
The authors report a novel tetraline-based, atropisomeric, and configurationally stable chiral diene catalyst 1, which was successfully employed in the Lewis base catalyzed allylation of aldehydes 2 with trichlorosilanes 3 (see Review below). Products 4 were isolated in moderate to excellent yields and in good to excellent enantiomeric ratios. Catalyst 1 also proved to be effective in a single example of enantioselective ring opening of a meso-epoxide to afford a 1,2-chlorohydrin.
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Review
S. E. Denmark, J. Fu Chem. Rev. 2003, 103, 2763–2794.
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Comment
Chiral atropisomeric biaryl scaffolds have been well studied and extensively applied in asymmetric catalysis. Yet, atropisomeric conjugated dienes have found limited application in asymmetric synthesis due to their low racemization-energy barrier. The authors avoid this major drawback by designing a catalyst bearing an extended conjugated system involving a diene and two phosphinoxide moieties, thus generating a stable conjugated helical system. Catalyst 1 proved to be configurationally stable even for prolonged periods (24 h) at high temperatures (135 °C). Its potential is well described by the reported allylation reaction as well as the promising results obtained in the ring opening of meso-epoxides with silicon tetrachloride.
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