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  • Studies on the Asymmetric Oxidation of Ester Derivatives of 1,3-Dithiane-2-carboxylates. Asymmetric Synthesis of trans-1,3-Dithiane 1,3-Dioxide.

Studies on the Asymmetric Oxidation of Ester Derivatives of 1,3-Dithiane-2-carboxylates. Asymmetric Synthesis of trans-1,3-Dithiane 1,3-Dioxide.

The Journal of organic chemistry (2001-10-24)
Varinder K. Aggarwal, Blanca N. Esquivel-Zamora, Graham R. Evans, Elfyn Jones
RESUMEN

Asymmetric oxidation of a range of 1,3-dithianes was studied using the Kagan protocol [CHP (4 equiv), (+)-DET (2 equiv), Ti(OiPr)(4) (1 equiv), and H(2)O (1 equiv) at -35 degrees C for 48 h]. 1,3-Dithiane itself gave monoxide (30% ee) and the trans bis-sulfoxide (59% ee) but with low enantioselectivity. In contrast, ester derivatives (Me, Et, t-Bu, Ph) of 1,3-dithiane-2-carboxylates gave monoxides (80-95% ee) and trans bis-sulfoxides (>97% ee) in high enantioselectivity. Optimum conditions for the oxidation of ethyl 1,3-dithiane-2-carboxylate required the Modena protocol [CHP (4 equiv), (+)-DET (2 equiv), and Ti(OiPr)(4) (0.5 equiv) at -22 degrees C for 24 h], and this gave the trans bis-sulfoxide in 60% yield and high enantioselectivity. The bis-sulfoxides were found to be acid sensitive and required rapid workup and purification for optimum yields. The differences between the Modena and Kagan oxidants are discussed together with a discussion on the origin of the high enantio- and diastereoselectivity of the reaction. Finally, hydrolysis and decarboxylation furnished trans-1,3-dithiane 1,3-dioxide.