Hydrogenation of Diketo Esters and Diketones

In the consecutive hydrogenation of / , 5-diketo esters (Table 21.16), selection of the chiral ligand can determine the sense of diastereoselection, and the 3,5-syn dihydroxy product was formed predominantly upon use of a Ru-(S)-amino-phosphinephosphinite-((S)-AMPP) catalyst, although the enantioselectivity of the syn-product is poor (Table 21.16, entry 7) [103a]. Syn 3,5-diol formation 

In the hydrogenation of diketones by Ru-binap-type catalysts, the degree of anti-selectivity is different between a-diketones and / -diketones [Eqs (13) and (14)]. A variety of /1-diketones are reduced by Ru-atropisomeric diphosphine catalysts to indicate admirable anti-selectivity, and the enantiopurity of the obtained anti-diol is almost 100% (Table 21.17) [105, 106, 110-112]. In this two-step consecutive hydrogenation of diketones, the overall stereochemical outcome is determined by both the efficiency of the chirality transfer by the catalyst (catalyst-control) and the structure of the initially formed hydroxyketones having a stereogenic center (substrate-control). The hydrogenation of monohydrogenated product ((R)-hydroxy ketone) with the antipode catalyst ((S)-binap catalyst) (mis- 

Substrate Major diastereomer Catalyst mol% Ph2 Solvent Diastereo- %ee meric ratio of major TOF Reference 

Catalyst mol% Ph2 Solvent Temp. Diastereo- %ee anti TOF Refer- 

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