The reduction of C = C double bonds is one of the most fundamental synthetic transformations and plays a key role in the manufacturing of a wide variety of bulk and fine chemicals. Hydrogenation of olefinic substrates...The reduction of C = C double bonds is one of the most fundamental synthetic transformations and plays a key role in the manufacturing of a wide variety of bulk and fine chemicals. Hydrogenation of olefinic substrates can be achieved readily with molecular hydrogen in many cases, but transfer hydrogenation methods using suitable donor molecules such as formic acid or alcohols are receiving increasing attention as possible synthetic alternatives because it requires no special equipment and avoids the handling of potentially hazardous gaseous hydrogen.……展开更多
As our continuous efforts to search for easily accessible ligands for dialkylzinc addition to imines,[1] in this paper,we would like to present a family of chiral imino alcohols 3 derived from 1,2-diphenyl-2-aminoetha...As our continuous efforts to search for easily accessible ligands for dialkylzinc addition to imines,[1] in this paper,we would like to present a family of chiral imino alcohols 3 derived from 1,2-diphenyl-2-aminoethanol which will be evaluated for the titled reaction. We believed that this kind of chiral ligands could be good chiral ligands for the diethylzinc addition to imines based on two points: (1) The excellent asymmetrically inductive properties of 1,2-diphenyl-2-aminoethanol and its derivatives have been proven in many reactions. (2) The conformation of the nitrogen in the chiral imines 3 is restricted by imine function which is similar to chiral oxazolines reported in our recent work.……展开更多
基金Project supported by the National Natural Science Foundation of China (Nos. 203900507, 20025205).
文摘The reduction of C = C double bonds is one of the most fundamental synthetic transformations and plays a key role in the manufacturing of a wide variety of bulk and fine chemicals. Hydrogenation of olefinic substrates can be achieved readily with molecular hydrogen in many cases, but transfer hydrogenation methods using suitable donor molecules such as formic acid or alcohols are receiving increasing attention as possible synthetic alternatives because it requires no special equipment and avoids the handling of potentially hazardous gaseous hydrogen.……
文摘As our continuous efforts to search for easily accessible ligands for dialkylzinc addition to imines,[1] in this paper,we would like to present a family of chiral imino alcohols 3 derived from 1,2-diphenyl-2-aminoethanol which will be evaluated for the titled reaction. We believed that this kind of chiral ligands could be good chiral ligands for the diethylzinc addition to imines based on two points: (1) The excellent asymmetrically inductive properties of 1,2-diphenyl-2-aminoethanol and its derivatives have been proven in many reactions. (2) The conformation of the nitrogen in the chiral imines 3 is restricted by imine function which is similar to chiral oxazolines reported in our recent work.……
