Abstract: Provided is a synthesis process for a chiral cyclopropyl ethynyl tertiary alcohol compound, where a chiral amino alcohol or a chiral amino diol is reacted in the presence of an alkaline reagent and a salt to obtain an optically active propynyl alcohol compound. In particular, the process includes (1) reacting cyclopropyl acetylene with a chiral inducing agent, a chiral auxiliary reagent and zinc halide in an organic solvent in the presence of an alkaline reagent and a sulfonate or a sulphinate to obtain a first reaction mixture; (2) reacting the resultant first reaction mixture with 5-chloro-2-aminotrifluorobenzophenone to form (S)-2-amino-5-chloro-?-cyclopropyl acetylene-?-trifluoromethylbenzyl alcohol. The process avoids an organic zinc reagent and a Grignard reagent, and has the advantages of safe production, an environmentally friendly route, low production costs, a high resultant product yield, a high chiral ee value and is suitable for industrial production.
Abstract: Provided is a synthesis process for a chiral cyclopropyl ethynyl tertiary alcohol compound, where a chiral amino alcohol or a chiral amino diol is reacted in the presence of an alkaline reagent and a salt to obtain an optically active propynyl alcohol compound. In particular, the process includes (1) reacting cyclopropyl acetylene with a chiral inducing agent, a chiral auxiliary reagent and zinc halide in an organic solvent in the presence of an alkaline reagent and a sulfonate or a sulphinate to obtain a first reaction mixture; (2) reacting the resultant first reaction mixture with 5-chloro-2-aminotrifluorobenzophenone to form (S)-2-amino-5-chloro-?-cyclopropyl acetylene-?-trifluoromethylbenzyl alcohol. The process avoids an organic zinc reagent and a Grignard reagent, and has the advantages of safe production, an environmentally friendly route, low production costs, a high resultant product yield, a high chiral ee value and is suitable for industrial production.