The enantioselectivity exerted by a new series of chiral catalysts containi
ng N,O-heterocycles of different sizes has been checked in the addition of
diethylzinc to benzaldehyde, which was used as a model reaction. The cataly
sts were derived from natural amino acids, following a relatively simple pr
ocedure, and in several cases excellent ee values were obtained. The result
s were complementary since ee's ranged from 98% (R) to 94% (S) excesses of
the final 1-phenylpropan-1-ol. Molecular mechanics calculations suggested t
hat the production of the R alcohol may be explained by a mechanism similar
to that described by Noyori, in which ZnEt2 interacts solely with the N-C-
C-OH fragment, whereas the formation of the S enantiomer needed the direct
participation of the lateral chain of the parent amino acid and the N,O-het
erocycle.