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Chiral asymmetric hydrogenation

Catalytic asymmetric hydrogenation was one of the first enantioselective synthetic methods used industrially (82). 2,2 -Bis(diarylphosphino)-l,l -binaphthyl (BINAP) is a chiral ligand which possesses a Cg plane of symmetry (Fig. 9). Steric interactions prevent interconversion of the (R)- and (3)-BINAP. Coordination of BINAP with a transition metal such as mthenium or rhodium produces a chiral hydrogenation catalyst capable of inducing a high degree of enantiofacial selectivity (83). Naproxen (41) is produced in 97% ee by... [Pg.248]

Efficient enantioselective asymmetric hydrogenation of prochiral ketones and olefins has been accompHshed under mild reaction conditions at low (0.01— 0.001 mol %) catalyst concentrations using rhodium catalysts containing chiral ligands (140,141). Practical synthesis of several optically active natural... [Pg.180]

Asymmetric hydrogenation of ketopantolactone (19) in the presence of chiral dirhodium complexes gave (R)-pantolactone (9) in high yield and excellent selectivity (36) (Table 2). [Pg.59]

HORNER - KNOWLES - KAGAN Asymmetric Hydrogenation Enantnselective hydrogenation of prochirai olefins with chiral Rh catalysts... [Pg.180]

Both reactions were carried out under two-phase conditions with the help of an additional organic solvent (such as iPrOH). The catalyst could be reused with the same activity and enantioselectivity after decantation of the hydrogenation products. A more recent example, again by de Souza and Dupont, has been reported. They made a detailed study of the asymmetric hydrogenation of a-acetamidocin-namic acid and the kinetic resolution of methyl ( )-3-hydroxy-2-methylenebu-tanoate with chiral Rh(I) and Ru(II) complexes in [BMIM][BF4] and [BMIM][PFg] [55]. The authors described the remarkable effects of the molecular hydrogen concentration in the ionic catalyst layer on the conversion and enantioselectivity of these reactions. The solubility of hydrogen in [BMIM][BF4] was found to be almost four times higher than in [BMIM][PFg]. [Pg.231]

The influence of the concentration of hydrogen in [BMIM][PFg] and [BMIM][BF4] on the asymmetric hydrogenation of a-acetamidocinnamic acid catalyzed by rhodium complexes bearing a chiral ligand has been investigated. FFydrogen was found to be four times more soluble in the [BFJ -based salt than in the [PFg] -based one. [Pg.270]

An early success story in the field of catalytic asymmetric synthesis is the Monsanto Process for the commercial synthesis of l-DOPA (4) (see Scheme 1), a rare amino acid that is effective in the treatment of Parkinson s disease.57 The Monsanto Process, the first commercialized catalytic asymmetric synthesis employing a chiral transition metal complex, was introduced by W. S. Knowles and coworkers and has been in operation since 1974. This large-scale process for the synthesis of l-DOPA (4) is based on catalytic asymmetric hydrogenation, and its development can be... [Pg.344]

Asymmetric syntheses of warfarin <96TL8321> and the axially chiral bicoumarin, isokotanin A <96TL3015> have been reported. The former is based on a Rh-catalysed asymmetric hydrogenation of a 3-(a,P-unsaturated ketone) substituted coumarin, whilst the key steps of the latter are an asymmetric Ullmann coupling and a selective demethylation. The stereochemistry of the fused dihydrocoumarin resulting from Li/NHs reduction of... [Pg.296]

In 1968,Horner et al. [22] and Knowles and Sabacky [23] independently demonstrated that low but definite enantiomeric excesses (up to 15% ee) were produced in the rhodium-catalyzed asymmetric hydrogenation of simple alkenes using methylpropylphenylphosphine 7 as chiral ligand (Scheme 1). [Pg.8]

The Rh(I)-catalyzed asymmetric hydrogenation of dimethyl 1-benzoyloxy-ethenephosphonate 2 using f-Bu-BisP as the chiral ligand gave the corresponding (S)-product in 88% ee (Scheme 27) [120], enantioselectivity being comparable to those observed by Burk et al. [121]. [Pg.33]

In recent years, the catalytic asymmetric hydrogenation of a-acylamino acrylic or cinnamic acid derivatives has been widely investigated as a method for preparing chiral a-amino acids, and considerable efforts have been devoted for developing new chiral ligands and complexes to this end. In this context, simple chiral phosphinous amides as well as chiral bis(aminophosphanes) have found notorious applications as ligands in Rh(I) complexes, which have been used in the asymmetric hydrogenation of a-acylamino acrylic acid derivatives (Scheme 43). [Pg.99]

Bidentate chiral bis(aminophosphanes) such as 55-57 (Scheme 44) have been used for the Rh(I)-cataIyzed asymmetric hydrogenation of itaconic acid... [Pg.99]

In 2004, Bolm et al. reported the use of chiral iridium complexes with chelating phosphinyl-imidazolylidene ligands in asymmetric hydrogenation of functionalized and simple alkenes with up to 89% ee [17]. These complexes were synthesized from the planar chiral [2.2]paracyclophane-based imida-zolium salts 74a-c with an imidazolylidenyl and a diphenylphosphino substituent in pseudo ortho positions of the [2.2]paracyclophane (Scheme 48). Treatment of 74a-c with t-BuOLi or t-BuOK in THF and subsequent reaction of the in situ formed carbenes with [Ir(cod)Cl]2 followed by anion exchange with NaBARF afforded complexes (Rp)-75a-c in 54-91% yield. The chela-... [Pg.222]

Asymmetric hydrogenation of 2- Ru-BINAP-chiral S-Naprt)xen Pharma... [Pg.60]

In 1998, Ruiz et al. reported the synthesis of new chiral dithioether ligands based on a pyrrolidine backbone from (+ )-L-tartaric acid. Their corresponding cationic iridium complexes were further evaluated as catalysts for the asymmetric hydrogenation of prochiral dehydroamino acid derivatives and itaconic acid, providing enantioselectivities of up to 68% ee, as shown in Scheme 8.18. [Pg.255]

Enantioselectivities of up to 47% ee were reported by Ruiz et al. in 1997 for the asymmetric hydrogenation of various prochiral dehydroamino acid derivatives and itaconic acid by using iridium cationic complexes of the novel chiral... [Pg.257]

On the other hand, James reported, in 1976, the use of a chiral sulfoxide as a ligand of ruthenium for the asymmetric hydrogenation of itaconic acid, providing a low enantioselectivity of 12% ee (Scheme 8.23). ... [Pg.258]

In recent years, the asymmetric hydrogenation of prochiral olefins have been developed in the presence of various chiral sulfur-containing ligands combined with rhodium, iridium or more rarely ruthenium catalysts. The best results have been obtained by using S/P ligands, with enantioselectivities of up to 99% ee in... [Pg.267]

In another context, chiral thioimidazolidine ligands have been successfully applied to the ruthenium-catalysed asymmetric hydrogen transfer of several aryl ketones by Kim et al., furnishing the corresponding chiral alcohols with high yields and enantioselectivities of up to 77% ee (Scheme 9.12). ... [Pg.278]

The pharmaceutical industry has been giving increased attention to homogeneous asymmetric hydrogenation for the synthesis of chiral molecules due to significant improvements in this technology (1). We recendy synthesized a chiral a-amino acid intermediate using Et-DuPhos-Rh catalyst, obtaining enantiomeric pmities (EP) of... [Pg.27]


See other pages where Chiral asymmetric hydrogenation is mentioned: [Pg.181]    [Pg.422]    [Pg.14]    [Pg.15]    [Pg.47]    [Pg.74]    [Pg.345]    [Pg.89]    [Pg.118]    [Pg.29]    [Pg.192]    [Pg.220]    [Pg.246]    [Pg.313]    [Pg.174]    [Pg.22]    [Pg.2]    [Pg.243]    [Pg.243]    [Pg.247]    [Pg.252]    [Pg.252]    [Pg.255]    [Pg.259]    [Pg.261]    [Pg.270]    [Pg.278]    [Pg.40]    [Pg.73]   
See also in sourсe #XX -- [ Pg.343 ]




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ASYMMETRIC HYDROGENATION WITH CHIRAL RUTHENIUM CATALYSTS

Applications of Chiral Phosphorous Ligands in Rhodium-Catalyzed Asymmetric Hydrogenation

Asymmetric chirality

Asymmetric hydrogenation chiral amine synthesis

Asymmetric hydrogenation chiral phosphines

Asymmetric hydrogenation chiral phosphinite

Asymmetric hydrogenations over chiral metal

Asymmetric hydrogenations over chiral metal complexes immobilized in SILCA

Asymmetric transfer hydrogenation chiral alcohol production

Asymmetric transfer hydrogenation chiral amino alcohol ligand

Chiral ligands asymmetric hydrogenation

Chiral monophosphine catalytic asymmetric hydrogenation

Hydrogenation chiral hgands, asymmetric

Rhodium , chiral “binap” complexes asymmetric hydrogenation with

Selective asymmetric hydrogenations over chiral

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