Method for preparing chiral secondary alcohol
A secondary alcohol, chiral technology, applied in the field of preparation of chiral alcohol by hydrolysis, to achieve the effects of simple preparation, low catalyst toxicity, and simple reaction operation process
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Embodiment 1
[0023] At room temperature, in a reactor equipped with a magnetic stirrer, add R, R -chiral furimine (0.025mol), tetrahydrofuran (1500ml), zinc acetate (0.025mol), then add acetophenone (0.5mol), stir for 10 min, then add HSi(OEt) 3 (1.0 mol), reacted for 48 hours, and ended the reaction. The reactant was carefully poured into a KOH (187 g) solution with a mass percentage concentration of 15%, hydrolyzed for 180 min, and the standing solution was divided into an organic phase and an aqueous phase. The organic phase Fractions were collected by distillation under reduced pressure to obtain 58 g of 1-phenylethanol, with a yield of 96% and an optical purity of 65%. ee .
Embodiment 2
[0025] At room temperature, in a reactor equipped with a magnetic stirrer, add S, S -chiral furimine (0.025mol), tetrahydrofuran (1500ml), zinc acetate (0.025mol), then add acetophenone (0.5mol), stir for 10 min, then add HSi(OEt) 3 (1.0 mol), reacted for 48 hours, and ended the reaction. The reactant was carefully poured into a KOH (187 g) solution with a mass percentage concentration of 15%, hydrolyzed for 180 min, and the standing solution was divided into an organic phase and an aqueous phase. The organic phase Fractions were collected by distillation under reduced pressure to obtain 56 g of 1-phenylethanol with a yield of 93% and an optical purity of 62% ee .
Embodiment 3
[0027] At room temperature, in a reactor equipped with a magnetic stirrer, add R, R -Chiral furimine (0.1mol), tetrahydrofuran (1500ml), zinc acetate (0.05mol), then add p-chloroacetophenone (0.5mol), stir for 10 min, then add HSi(OCH 3 ) 3 (1.5 mol), reacted for 72 hours, ended the reaction, and the reactant was carefully poured into a solution of hydrochloric acid (120g) with a mass percent concentration of 15%, hydrolyzed for 150 min, and the standing solution was divided into an organic phase and an aqueous phase, and the organic phase was passed through Fractions were collected by distillation under reduced pressure to obtain 62.0 g of 1-naphthyl ethanol, with a yield of 80% and an optical purity of 54% ee .
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