The proton form of zeolite Y was modified with R-1,3-dithiane-1-oxide
at a lending of one molecule per supercage to create a chiral acid cat
alyst. The enantiomeric discrimination of this catalyst was demonstrat
ed using the dehydration of the separate enantiomers of butan-2-ol and
over the temperature range investigated the S-enantiomer was always m
ore reactive. This catalyst system was then studied using computationa
l simulation methods. The lowest energy structures for the enantiomers
of butan-2-ol docked into a model of the modified zeolite were calcul
ated and it was found that the binding energy for the S-enantiomer is
64.7 kJ mol(-1) and that for the R-enantiomer is 48.3 kJ mol(-1). This
difference in the adsorption of the two enantiomers is considered to
be the origin of the enhanced reactivity of the S-enantiomer.