Of functionalized ketones

BPPM Scheme 1.17) was used as catalyst [60]. The enantioselective hydrogenation of functionalized ketones was also efficiently achieved by a series of rhodium(I) aminophosphine- and amidophosphine-phosphinite complexes [61]. 

Bppfoh and bppfa derivatives have been applied most successfully for the Rh-catalyzed hydrogenation of dehydro amino acid derivatives such as MAC (ee 97%) and of functionalized ketones [7]. The nature of the amino group has a significant effect on enantioselectivity and often also on activity, and is used to tailor the ligand for a particular substrate. Rh-bppfa complexes were among the first catalysts able to hydrogenate tetrasubstituted C=C bonds, albeit with relatively low activity (Table 25.2, entries 2.1-2.3). Ferrophos, one of the very few li-... 

Rhodium-Catalyzed Enantioselective Hydrogenation of Functionalized Ketones... 

In this chapter, we will focus on the rhodium-catalyzed hydrogenation of functionalized ketones and the development of chiral phosphorous ligands for this process. Although there are other chiral phosphorous ligands which are effective for ruthenium-, iridium-, platinum-, titanium-, zirconium-, and palladium-catalyzed hydrogenation, they will not be discussed here. For details of these chemistries, the reader should refer to other chapters of this book. 

Rhodium-Catalyzed Enantioselective Hydrogenation of Functionalized Ketones 33.3.2.2 a,y-Diketoesters... 

Asymmetric hydrogenation of ketones is one of the most efficient methods for making chiral alcohols. Ru-BINAP catalysts are highly effective in the asymmetric hydrogenation of functionalized ketones,54,55 and this may be used in the industrial production of synthetic intermediates for some important antibiotics. The preparation of statine 65 (from 63b R = i-Bu) and its analog is one example (Scheme 6-28).56 Table 6-6 shows the results when asymmetric hydrogenation of 63 catalyzed by RuBr2[(R)-BINAP] yields threo-64 as the major product. 

In contrast to their success in the asymmetric hydrogenation of functionalized ketones, BINAP-Ru catalysts fail to give good results with simple ketone because such substrates lack heteroatoms that enable the substrate to anchor strongly to the Ru metal. 

The best studied systems are the Raney Ni/tartaric acid/NaBr combination, for the hydrogenation of / -functionalized ketones, and the Pt- and Pd-on-support/cinchona alkaloid systems for the enantioselective hydrogenation of a-functionalized ketones. 

Although Ru(OCOCH3)2(binap) exhibits excellent catalytic performance on asymmetric hydrogenation of functionalized olefins, it is feebly active for reaction of ketones. This failure is due to the property of the anionic ligands. Simple replacement of the carboxylate ligand by halides achieves high catalytic activity for reaction of functionalized ketones. 

Figure 1.13. Asymmetric hydrogenation of functionalized ketones catalyzed by BINAP-Ru complexes.

The asymmetric hydrogenation of unfunctionalized ketones is a much more challenging task than that of functionalized ketones [3 j, 115]. Many chiral catalysts which are effective for functionalized ketones do not provide useful levels of enantioselectivity for unfunctio-nalized ketones, due to a lack of secondary coordination to the metal center. Zhang demonstrated the enantioselective hydrogenation of simple aromatic and aliphatic ketones using the electron-donating diphosphane PennPhos, which has a bulky, rigid and well-defined chiral backbone, in the presence of 2,6-lutidine and potassium bromide [36]. 

Radical carbonylation reaction serves as a powerful tool for the synthesis of a range of carbonyl compounds. Radical carbonylation has been successfully applied to the synthesis of functionalized ketones from alkyl, aryl, and alkenyl halides.The radical aminocarbonylation reaction of alkynes and azaenynes provided efficient routes to 2-substituted acrylamides, lactams, and pyrrolidinones. For example, the aminocarbonylation of 4-pentyn-l-yl acetate 318 initiated by tributyltin hydride (Bu"3SnH) (30mol%) with AIBN (20mol%) gave acrylamide 325 in 92% yield (Scheme 43).A proposed mechanism starts from the addition of tributyltin radical 319 to alkyne... 

BINAP and MeO-BIPHEP/Ru-catalyzed hydrogenation of functionalized ketones has been applied to the synthesis of more than ten important compounds, for example, antibiotics, anti-inflammatory compounds, and anticancer agents, since 1999 [59],... 

Highly enantioselective hydrogenation of functionalized ketones has been achieved with chiral phosphine-Rh(I) and -Ru(II) complexes [1,162], The presence of a functional group close to the carbonyl moiety efficiently accelerates the reaction and also controls the stereochemical outcome. The heteroatom-metal interaction is supposed to effectively stabilize one of the diastereomeric-transition states and/or key intermediates in the hydrogenation. 

Despite fruitful results of asymmetric hydrogenation of functionalized ketones, only limited examples have been reported for reaction of ketonic substrates with no functionality near the carbonyl group [1,162,254]. Transition-metal catalysts with a bidentate chiral phosphine, successfully used for functionalized ketones, are often ineffective for reduction of simple ketones in terms of reactivity and enantioselectivity [162b,c]. However, a breakthrough in this subject has been provided by the invention of a new chiral Ru catalyst system. 

Keto Esters Asymmetric transfer hydrogenation of functionalized ketones is rare. However, an excellent optical yield is obtainable inreduction of methyl benzoylformate by using 2-propanol and with a catalyst system consisting of [RhCl(C6H]0)]2, (S,S)-DMDPEN, and KOH (Scheme 1.89) [313],... 

A wide range of donor ketones, including acetone, butanone, 2-pentanone, cyclopentanone, cyclohexanone, hydroxyacetone, and fluoroacetone with an equally wide range of acceptor aromatic and aliphatic aldehydes were shown to serve as substrates for the antibody-catalyzed aldol addition reactions (Chart 2, Table 8B2.6). It is interesting to note that the aldol addition reactions of functionalized ketones such as hydroxyacetone occurs regioselectively at the site of functionaliztion to give a-substitutcd-fi-hydroxy ketones. The nature of the electrophilic and nucleophilic substrates utilized in this process as well as the reaction conditions complement those that are used in transition-metal and enzymatic catalysis. 

K. Evetraere, J.-F. Carpentier, A. Morteux, and M. Bulliard, N-Benzoyl-norephedrine derivatives as new, effident ligands for ruthenium-catalyzed asymmetric transfer hydrogenation of functionalized ketones, Tetrahedron Asymm. 1999, 10, 4083 4086. 

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