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Esters palladium-catalyzed allylation

Allylic carbonates are better electrophiles than allylic acetates for the palladium-catalyzed allylic alkylation.77 Reaction of Eq. 5.54 shows the selective allylic alkylation of a-nitro ester with allylic carbonates without affecting allylic acetates.78... [Pg.141]

Wong and co-workers have prepared various quaternary cx-nitro-cx-methyl carboxylic acid esters by the palladium-catalyzed allylic alkylation of a-nitropropionate ester (Eq. 5.59). The products can be kinetically resolved by using cx-chymotrypsin and are converted into optical active a-methyl cx-amino acids. Such amino acids are important due to the unique biological activity of these nonproteinogenic a-amino acids.82... [Pg.142]

Another example is the palladium catalyzed allylic substitution of 3-phenyl-2-propenyl-carbonic acid methyl ester to yield iV-(3-phenyl-2-propenyl)morpho-line reported by Reetz, Kragl and co-workers. This reaction was performed in the presence of phosphino-terminated amine dendrimers [17, 18] loaded with Pd11 cations as shown in Scheme 10. For this particular dendrimer with a molecular weight of 10 212 g/mol, a retention of 0.999 per residence time [35] was estimated in a membrane reactor with a SELRO MPF-50 membrane. It must be noted that a very high retention is a prerequisite for a continuous operating system, since a small leaching of the dendrimer leads to an exponential decrease in the amount... [Pg.508]

As described in many reviews, Trost and his co-workers have carried out a pioneering work on the molybdenum-and tungsten-catalyzed allylic alkylation of allylic esters regioselectivity of the reaction is often complementary to the palladium-catalyzed allylic alkylation. The first asymmetric version was disclosed by Pfaltz and Lloyd-Jones in 1995 (Equation (63)). They used a catalytic amount of a novel tungsten complex, prepared from [W(CO)3(MeCN)3] or [W(cycloheptatriene) (COIs] and optically active (diphenylphosphino)phenyloxazolines 57, for the allylic alkylation of 3-aryl-2-propenyl phosphate with dimethyl sodiomalonate to isolate the corresponding branched alkylated compounds as a major isomer with an excellent enantioselectivity (96% ee). Unexpectedly, 3-aryl-2-propenyl carbonates are shown to be unreactive. It is worth noting that an isostructural molybdenum complex does not promote the catalytic alkylation under the same reaction conditions. In contrast, Lloyd-Jones and Lehmann reported the stereocontrolled... [Pg.111]

Hallberg and his co-workers reported in 1999 the first microwave-promoted asymmetric palladium-catalyzed allylic alkylation of acyclic and cyclic allylic esters with dimethyl malonate, using some chiral ligands 57 and 118 (Equations (65) and (55))3 s,l6Sa,i6Sb both cases, microwave irradiation reduces reaction time without any loss of enantio-selectivity. The same group successfully applied this reaction system to the molybdenum-catalyzed allylic alkylation (Equation ((,7)) 60.160 -l60. [Pg.112]

Three research groups discovered almost at the same time that non-C2-symmetrical oxazolines of the type 32 can be even more effective ligands for asymmetric catalysis than type 4 ligands (Fig. 11). For the palladium-catalyzed allylic substitutions on 62, record selectivities could be reached using 32 (X = PPhj) [30]. It seems that not only steric but also electronic factors, which cause different donor/acceptor qualities at the coordination centers of the ligand, seem to play a role here [31]. The reaction products can subsequently be converted to interesting molecules, for example 63 (Nu = N-phthalyl) can be oxidized to the amino acid ester 64 [32]. [Pg.24]

Palladium-catalyzed allylic substitution of acetate by stannylaluminum developed by Trost is compatible with ester group (Scheme 57) [224,227]. [Pg.111]

The stereoselective allylation of aldehydes was reported to proceed with allyltrifluorosilanes in the presence of (S)-proline. The reaction involves pentacoordinate silicate intermediates. Optical yields up to 30% are achieved in the copper-catalyzed ally lie ace-toxylation of cyclohexene with (S)-proline as a chiral ligand. The intramolecular asymmetric palladium-catalyzed allylation of aldehydes, including allylating functionality in the molecules, via chiral enamines prepared from (5)-proline esters has been reported (eq 15). The most promising result was reached with the (S)-proline allyl ester derivative (36). Upon treatment with Tetrakis(triphenylphosphine)palladium(0) and PPh3 in THF, the chiral enamine (36) undergoes an intramolecular allylation to afford an a-allyl hemiacetal (37). After an oxidation step the optically active lactones (38) with up to 84% ee were isolated in high chemical yields. The same authors have also reported sucessful palladium-catalyzed asymmetric allylations of chiral allylic (S)-proline ester enamines" and amides with enantiomeric excesses up to 100%. [Pg.482]

Z)-2-butenylene dicarbonate with dimethyl malonate gives a low yield (20—40%) of 2-vinylcyclopropane-l,l-dicarboxylate with up to 70% ee (Scheme 2-38) [54], Reaction with methyl acetoacetate or acetylacetone takes place in a different manner to give a dihydrofuran derivative (59% ee), which results from nucleophilic attack of enolate oxygen at the cyclization step, (c) Asymmetric elimination of an acetyl-acetate ester gives (R)-4-rerr-butyl-l-vinylcyclohexene of up to 44% ee (Scheme 2-39) [55]. (d) Palladium-catalyzed allylic silylation is also applied to asymmetric synthesis... [Pg.127]

The alkoxydi(sulfonyl)methane shown in Scheme 128 (entry b) has been used as a useful carbonyl 1,1-dipole synthon ( C°-0). Its alkylation with alkyl halides is best achieved using CS2CO3 in DMF at 50 °C, and its palladium-catalyzed allylation requires the use of phase-transfer conditions (Scheme 128, entry b). The unmasking of the carbonyl group was then achieved by reacting the resulting disulfone with boron trichloride (-78 C, CH2CI2) followed by the addition of alcohols or amines to provide esters or amides respectively (Scheme 128, entry b). ... [Pg.177]

Heterogeneous aquacatalytic palladium-catalyzed allylic substitution with nitromethane as the Cl nucleophile has been developed by Uozumi (Scheme 3.71). By using an amphiphilic PS-PEG polymer-supported chiral palladium complex, the asymmetric allyhc nitromethylation of cycloalkenyl esters proceeded smoothly in water. For example, when polymer-supported palladium complex 214 was employed in the asymmetric nitromethylation of cycloheptenyl carbonate 215... [Pg.115]

Allylic Esters Mainly allylic esters are used as substrates for palladium-catalyzed allylic alkylations. Among these substrates, acetates play a dominant role. [Pg.942]

Recently, Jiang et al. have described a Pd-catalyzed direct oxidative carbonylation of allylic C-H bonds with carbon monoxide. This new procedure shows that the inherent requirement for a leaving group in the palladium-catalyzed allylic carbonylation can be lifted, which provides a new route to synthetically useful P-enoic acid esters 114 with high regioselectivity (Scheme 12.55) [134]. [Pg.955]

Ester enolates, much more sensitive and capricious than ketone and amide enolates, seemed to be unsuitable for palladium-catalyzed allylic alkylations. Thus, Hegedus and coworkers [24] reported on low yields and predominant side reactions in the allylation of the lithium enolate of methyl cyclohexanecarboxylate. It seems that so far the only reliable and efficient version of a Tsuji-Trost reaction with ester enolates is based on the chelated zinc enolates 41 derived from N-protected glycinates 40 - a procedure that was developed by Kazmaier s group. [Pg.269]

Zinc enolates like 41 served as nucleophiles in a study aimed at a rhodium-catalyzed reaction with enantiomerically enriched allylic phosphates. Nonracemic products were obtained under efficient chirality transfer from the substrate and with remarkable diastereoselectivity [23]. Kazmaier enolates were used to manipulate the backbone of small peptides [27] by palladium-catalyzed allylations of a terminal glycine ester [28]. In the course of these studies, central glycine was also allylated in a diastereoselective manner through assumed chelated zinc enolates of glycine in a peptidic bond to proline or JV-alkyl amino acids [29]. Although this is, of course, not an asymmetric synthesis, the protocol is remarkable inasmuch as, in contrast to the palladium-mediated conversion, the noncatalyzed reaction of the enolate with the corresponding allylic bromide occurs in a more or less stereorandom manner. [Pg.270]

Palladium complexes also catalyze the carbonylation of halides. Aryl (see 13-13), vinylic, benzylic, and allylic halides (especially iodides) can be converted to carboxylic esters with CO, an alcohol or alkoxide, and a palladium complex. Similar reactivity was reported with vinyl triflates. Use of an amine instead of the alcohol or alkoxide leads to an amide. Reaction with an amine, AJBN, CO, and a tetraalkyltin catalyst also leads to an amide. Similar reaction with an alcohol, under Xe irradiation, leads to the ester. Benzylic and allylic halides were converted to carboxylic acids electrocatalytically, with CO and a cobalt imine complex. Vinylic halides were similarly converted with CO and nickel cyanide, under phase-transfer conditions. ... [Pg.565]


See other pages where Esters palladium-catalyzed allylation is mentioned: [Pg.140]    [Pg.143]    [Pg.150]    [Pg.83]    [Pg.68]    [Pg.637]    [Pg.87]    [Pg.207]    [Pg.524]    [Pg.397]    [Pg.138]    [Pg.223]    [Pg.69]    [Pg.770]    [Pg.153]    [Pg.760]    [Pg.171]    [Pg.255]    [Pg.275]    [Pg.62]    [Pg.372]    [Pg.68]    [Pg.270]    [Pg.934]    [Pg.200]    [Pg.38]    [Pg.202]    [Pg.262]    [Pg.127]    [Pg.393]    [Pg.427]    [Pg.540]    [Pg.38]   
See also in sourсe #XX -- [ Pg.714 ]




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Allylation esters

Allylation palladium catalyzed

Allylations palladium-catalyzed

Allyls palladium

Esters allyl

Esters allylic

Esters palladium-catalyzed

Palladium allylation

Palladium esters

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