The enantioselective hydrogenation of ketopantolactone (KPL) on Pt–alumina catalyst modified by β-isocinchonine (β-ICN) and O -phenylcinchonidine (PhOCD) in toluene, acetic acid and their mixtures under otherwise identical experimental conditions was studied. Reversal of the enantioselection was obtained dependent on the concentration of acetic acid (ee max = 17% ( S ) on Pt–PhOCD and 50% ( R ) on Pt–β-ICN, respectively). The possible role in enantioselection of adducts forming in the reaction mixture and the stability of PhOCD under the conditions of the hydrogenation was investigated by ESI-MS. The results of the nonlinear phenomenon measurements on β-ICN + PhOCD mixtures suggest that the intermediate surface complexes β-ICN–KPL and PhOCD–KPL responsible for the opposite enantioselection include different types of interactions and the enantioselection is directed by the competition between these interactions. ► Hydrogenation of KPL over Pt modified β-ICN and PhOCD was studied. ► The reversal of the enantioselection was dependent on the AcOH concentration. ► PhOCD did not suffered C–O bond hydrogenolysis in the presence of AcOH. ► Competing intermediate complexes involving different interactions were suggested.
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