VCD configuration of enantiopure/-enriched tetrasubstituted α-fluoro cyclohexanones and their use for epoxidation oftrans-olefins.
Chirality 2004;
16:467-74. [PMID:
15236344 DOI:
10.1002/chir.20061]
[Citation(s) in RCA: 15] [Impact Index Per Article: 0.8] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/06/2022]
Abstract
The configurations of three enantiopure tetrasubstituted alpha-fluoro cyclohexanones (-)-5Ia, (-)-5IIa and (-)-6a were determined by VCD and proved to be (-)-(2S,5R)-5Ia, (-)-(2R,5R)-5IIa, and (-)-(2R,5R)-6a. The VCD study also identified the conformers populated in CDCl3 solution, including higher-energy gas-phase conformers with equatorial fluorine for 5Ia and 5IIa that are stabilized in CDCl3 solution. Used as catalysts for epoxidation of trans olefins (beta-methylstyrene, stilbene, methyl p-methoxy cinnamate) by oxone, it was found that (-)-5Ia is the most efficient for all trans olefins (providing, respectively, 62%, 90% and 66% ee) but that all three ketones provide high ee% with stilbene (78-90% ee). Moreover, the configurations predicted from the stereo outcome of the epoxidation reaction are identical to those determined by VCD.
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