Highly efficient synthesis of enantiomerically pure (S)-2-amino-1,2,2-triphenylethanol. Development of a new family of ligands for the highly enantioselective catalytic ethylation of aldehydes
Ks. Reddy et al., Highly efficient synthesis of enantiomerically pure (S)-2-amino-1,2,2-triphenylethanol. Development of a new family of ligands for the highly enantioselective catalytic ethylation of aldehydes, J ORG CHEM, 64(11), 1999, pp. 3969-3974
The reaction of (S)-triphenylethylene oxide (3) with diisopropoxytitanium(I
V) diazide in benzene solution at 70 degrees C takes place readily in a com
pletely regioselective and stereospecific manner to afford (S)-2-azido-1,2,
2-triphenylethanol (6). Reduction of the azide by catalytic hydrogenation l
eads to (S)-2-amino-1,2,2-triphenylethanol (5) that, by N,N-dialkylation wi
th 1,4-dibromobutane, 1,5-dibromopentane, 1,5-dibromo-3-oxapentane, alpha,a
lpha'- dibromo-o-xylene, and methyl iodide, affords the corresponding (S)-2
-dialkylamina-1,2,2-triphenylethanols (7a-e). On the other hand, the reacti
on of 5 with benzyl bromide or 1-iodobutane takes place as a monoalkylation
, leading to the corresponding (S)-2-alkylamino-1,2,2-triphenylethanols (8f
,g). The performance of amino alcohols 7a-e as ligands for the catalytic en
antioselective addition of diethylzinc to benzaldehyde has been studied, wi
th enantioselectivities of 94-97% being recorded. The best performing ligan
ds in this family; 7a [(S)-1,2,2-triphenyl-2-(1-pynolidinyl)-ethanol] and 7
c [(S)-2-morpholino-1,2,2-triphenylethanol] have been studied in the additi
on of Et2Zn to a representative family of aldehydes. With 7a, a 96.6% mean
ee is recorded for a family of 16 alpha-substituted aldehydes and a 92.8% m
ean ee for a family of six alpha-unsubstituted aldehydes. With 7c working o
n the same families of aldehydes, the mean enantioselectivities are 96.8% a
nd 91.8%, respectively.