Ketones, ruthenium-catalyzed

Sheldon et al. have combined a KR catalyzed by CALB with a racemization catalyzed by a Ru(II) complex in combination with TEMPO (2,2,6,6-tetramethylpi-peridine 1-oxyl free radical) [28]. They proposed that racemization involved initial ruthenium-catalyzed oxidation of the alcohol to the corresponding ketone, with TEMPO acting as a stoichiometric oxidant. The ketone was then reduced to racemic alcohol by ruthenium hydrides, which were proposed to be formed under the reaction conditions. Under these conditions, they obtained 76% yield of enantiopure 1-phenylethanol acetate at 70° after 48 hours. 

The most important ruthenium-catalyzed domino process is based on a metathesis reaction. Nonetheless, a few other ruthenium-catalyzed processes have been employed for the synthesis of substituted 3,y-unsaturated ketones, as well as unsaturated y-lactams and allylic amines. 

C3-TunePhos (1,13-bis(diphcnylphosphino)-7,8-dihydro-6//-dibenzo f,h] [l,5]dioxonin) ruthenium catalyzes the hydrogenation of a-phthalimido ketones with enantioselectivities of >94%,651 leading to a highly enantioselective route to /3-aminoethanols. 

Ruthenium-catalyzed arylations of aromatic ketones were reported employing the transmetallation of boronic esters (Equations (127) and (128)).112... 

In addition to aryl halides and triflates, organometallic reagents can be utilized for the catalytic arylation reaction. The rhodium-catalyzed arylation of arylpyridines proceeds with the use of tetraarylstannanes (Equation (67)).83 The ruthenium-catalyzed reaction of aromatic ketones with arylboronates affords the ortho-arylated aromatic ketones (Equation (68)).84... 

Trost et al 2 briefly explored using non-enone enophiles. Simple alkenes led to the formation of complex mixtures of isomers due to the presence of an additional set of /3-hydrogens. Many other types of substrates were incompatible with reaction conditions. Vinyl ketones were, therefore, the only coupling partners shown to be effective in the ruthenium-catalyzed Alder-ene couplings of allenes and alkenes. 

Recently, the first report was made on the ruthenium-catalyzed enantioselective hydrogenation of aryl-methyl ketones using monodentate phosphonites (Scheme 28.18). In particular, ligand 15f induced excellent ee-values. One very early report on rhodium-catalyzed hydrogenation of ketones using the monophosphine bmpp 1 f met with a low e.e. [95]. 

The enantioseiective hydrogenation of a-amino ketones has been applied extensively to the synthesis of chiral drugs such as the / -agonist SR 58611 (Sanofi Cie). m-Chlorstyreneoxide was obtained via carbene-induced ring closure of the amino alcohol. Epoxide-opening by a chiral amine obtained via a ruthenium-catalyzed hydrogenation of an enamide has led to the desired compound where... 

Increasing effort has been applied to develope asymmetric transfer hydrogenations for reducing ketones to alcohols because the reaction is simple to perform and does not require the use of reactive metal hydrides or hydrogen. Ruthenium-catalyzed hydrogen transfer from 2-propanol to ketones is an efficient method for the preparation of secondary alcohols. 

In the course of a study on creation of a library of a great number of hetaryl ketones and related derivatives, Szewczyk et al. <2001AGE216> elaborated a ruthenium-catalyzed transformation of heterocycles with activated C-H bond by reaction with olefins and carbon monoxide. Thus, 253 gave 254, albeit in very poor yield. Synthetically, the more straightforward iron-catalyzed transformation was described by Fiirstner et al. <2002JA13856>. These authors reacted 255 with a Grignard reagent in the presence of Fe(acac)3 to afford the 7-alkyl-substituted derivative 256 in reasonable yield (acac = acetylacetonate). 

Keying on the discovery by Zhang and co-workers (40) that mixed P-N ligands were useful in ruthenium catalyzed hydrosilylation of ketones, Frost and... 

A. Ruthenium Catalyzed Asymmetric Transfer Hydrogenation (ATH) TO Ketones... 

Asymmetric reductive acetylation was also applicable to acetoxyphenyl ketones. In this case the substrate itself acts as an acyl donor. For example, m-acetoxyace-tophenone was transformed to (R)-l-(3-hydroxyphenyl)ethyl acetate under 1 atm H2 in 95% yield [16] (Scheme 1.12). The pathway of this reaction is rather complex. It was confirmed that nine catalytic steps are involved two steps for ruthenium-catalyzed reductions, two steps for ruthenium-catalyzed racemizations, two steps... 

Ruthenium-Catalyzed Asymmetric Hydrogenation of Aromatic Ketones... 

A -ARENESULFONYL- AND A-ALKYLSULFAMOYL-1,2-DIPHENYLETHYLENEDIAMINE LIGANDS FOR RUTHENIUM-CATALYZED ASYMMETRIC TRANSFER HYDROGENATION OF ACTIVATED KETONES... 

IN SITU FORMATION OF LIGAND AND CATALYST APPLICATION IN RUTHENIUM-CATALYZED ENANTIOSELECTIVE REDUCTION OF KETONES... 

SYNPHOS AND DIFLUORPHOS AS LIGANDS FOR RUTHENIUM-CATALYZED HYDROGENATION OF ALKENES AND KETONES... 

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. 

In (C5Me5)Rh(C2H3SiMe3)2-catalyzed C-H/olefin coupling the effect of the coordination of the ketone carbonyl is different from that in the ruthenium-catalyzed reaction [10], In the rhodium-catalyzed reaction all C-H bonds on the aromatic ring are cleaved by the rhodium complex without coordination of the ketone carbonyl. Thus, C-H bond cleavage and addition of Rh-H to olefins proceed without coordination of the ketone carbonyl. After addition of the Rh-H species to the olefin, a coordinatively unsaturated Rh(aryl) (alkyl) species should be formed. Coordination of the ketone carbonyl group to the vacant site on the rhodium atom leads... 

The ruthenium-catalyzed addition of C-H bonds in aromatic ketones to olefins can be applied to a variety of ketones, for example acetophenones, naphthyl ketones, and heteroaromatic ketones. Representative examples are shown in the Table 1. Terminal olefins such as vinylsilanes, allylsilanes, styrenes, tert-butylethy-lene, and 1-hexene are applicable to this C-H/olefin coupling reaction. Some internal olefins, for example cyclopentene and norbornene are effective in this alkylation. The reaction of 2-acetonaphthone 1 provides the 1-alkylation product 2 selectively. Alkylations of heteroaromatic ketones such as acyl thiophenes 3, acyl furans, and acyl pyrroles proceed with high yields. In the reaction of di- and tri-substitued aromatic ketones such as 4, which have two different ortho positions, C-C bond formation occurs at the less congested ortho position. Interestingly, in the reaction of m-methoxy- and m-fluoroacetophenones C-C bond formation occurs at the congested ortho position (2 -position). 

Solid-phase synthesis is of importance in combinatorial chemistry. As already mentioned RuH2(PPh3)4 catalyst can be used as an alternative to the conventional Lewis acid or base catalyst. When one uses polymer-supported cyanoacetate 37, which can be readily obtained from the commercially available polystyrene Wang resin and cyanoacetic acid, the ruthenium-catalyzed Knoevenagel and Michael reactions can be performed successively [27]. The effectiveness of this reaction is demonstrated by the sequential four-component reaction on solid phase as shown in Scheme 11 [27]. The ruthenium-catalyzed condensation of 37 with propanal and subsequent addition of diethyl malonate and methyl vinyl ketone in TH F at 50 °C gave the adduct 40 diastereoselectively in 40 % yield (de= 90 10). 

Dimcthyl 2-(but-2-ynyl)-2-(5-oxopent-3-enyl)malonates 96 undergo ruthenium-catalyzed intramolecular cycli-zations to yield cyclohexyl fused 4//-pyrans 97, most likely via formation of and reductive elimination from the ruthenacycle intermediate 98 (Scheme 32). Likewise, internal alkynes tethered to an a, 3-unsaturated ketone via a three-component chain undergo mthenium-catalyzed cyclizations furnishing 4//-pyrans that are fused to five-membered rings 99 (Equation 50) <2000JA5877>. 

The synthesis of 5- -methylene tetrahydropyrans 378 can be accomplished by a regioselective ruthenium catalyzed C-C coupling reaction of prop-2-yn-l-ols 379 and allylic alcohol (Equation 156) <1999JOC3524>. A ruthenium catalyzed alkylative cycloetherification reaction between allene 380 and vinyl ketones furnishes 2-substituted tetrahydropyrans 381 in high yield (Equation 157) <1999JA10842>. 

The asymmetric hydrogenation of enol esters is an alternative to asymmetric ketone hydrogenation. The precursors can be prepared from the ketones but also via ruthenium-catalyzed addition of the carboxylic acids to the 2-postion of terminal alkynes. This latter method allows the study of the effect of the carboxylate on the enantioselectivity of the asymmetric hydrogenation. A remarkable study by Reetz and colleagues established that it is possible to hydrogenate enolate... 

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