Using allyl carbonates

Palladium(0)-catalyzed a-allylation of silyl ethers is a reaction which can be carried out with ketones as well as with aldehydes91. It is highly regiospecific when applied to ketones. a-Allylations can also be performed with enol acetates using allyl carbonates in the presence of catalytic amounts of palladium(O) complexes and (tributyl)methoxytin92,93. The steric course of the reaction has not been studied systematically but a high level of diastereoselectivity is expected and possibilities for asymmetric induction by the use of chiral auxiliaries are envisaged. [Pg.720]

Transition metal catalyzed allylation by using allylic carbonates is one of the most versatile allylation methods. The Pd-catalyzed reaction is believed to proceed by the following mechanism. Eirst of all, oxidative addition of the C-0 bond to Pd(0) gives (r/ -allyl)(carbonato)palladium(II) complex, which undergoes decarboxylation to give the alkoxo complex [70]. The resulting (t] -allyl)(alkoxo)palladium(II) complex immediately reacts with nucleophiles (HNu)... [Pg.137]

A Ti/Pd bimetallic system catalyses allylation of carbonyl compounds, using allyl carbonates, and is particularly useful for ketones that are reluctant participants in many allylation protocols. Stereoselective intramolecular versions are also described. ... [Pg.27]

Other resnlts obtained by Tsnji s group up to 1987 using allyl carbonates are carbony-lations to afford /3,y-nnsatnrated esters " (Scheme 3) (see Sect. VI.3), cycloadditions of trimethylenemethane palladium complex to afford methylenecyclopentanes (Scheme 3), and cycloadditions of zwitterions to afford substituted vinylcyclopentanes (Scheme 4) (see Sect. V.2.5.2). 2-Butene-1,4-diol dicarbonates afford a variety of cyclic strnctnres by reaction with dinncleophiles nnder Pd(0) catalysis (see Sect. I). The first case reported seems to be the formation of the vinylcyclopropane of Scheme 44" ... [Pg.79]

Stabilized carbon nucleophiles under neutral conditions. The formation of an eight-membered ring instead of the also possible six-membered ring is remarkable (Scheme 12). The polycyclic skeleton of gelsemium-type alkaloid family has been prepared by an intramolecular allylation using allyl carbonate as electrophilic reagent. ... [Pg.86]

A remarkable domino reaction, combining the Cu(I)-catalysed hydrosilylation of 2-alkylcyclohex-2-en-l-one enone (433) with R3Si-H and the subsequent trapping of the intermediate enol ether (435) in the Pd(0)-catalysed allylation, using allyl carbonate... [Pg.466]

The same strategy has been employed successfully for the KR of mono-2- or mono-3-substituted indolines [214] and 2,3-disubstituted indolines [215] using CAL-A or CAL-B (Figure 9.30). Similarly, cyclic a-amino esters derived from the 2,3-dihydroindole and octahydroindole cores have also been resolved successfully using allyl carbonates and CAL-A, attaining excellent selectivity and conversion values [216]. Although less explored, complementary hydrolytic processes have also been reported, as, for instance, Ostaszewski and coworkers used "homemade" animal liver acetone powders for the KR of 2-acetyl-4-phenyl-l,4-dihy-dro-2H-isoquinolin-3-one [217]. [Pg.252]

In contrast to oxidation in water, it has been found that 1-alkenes are directly oxidized with molecular oxygen in anhydrous, aprotic solvents, when a catalyst system of PdCl2(MeCN)2 and CuCl is used together with HMPA. In the absence of HMPA, no reaction takes place(100]. In the oxidation of 1-decene, the Oj uptake correlates with the amount of 2-decanone formed, and up to 0.5 mol of O2 is consumed for the production of 1 mol of the ketone. This result shows that both O atoms of molecular oxygen are incorporated into the product, and a bimetallic Pd(II) hydroperoxide coupled with a Cu salt is involved in oxidation of this type, and that the well known redox catalysis of PdXi and CuX is not always operalive[10 ]. The oxidation under anhydrous conditions is unique in terms of the regioselective formation of aldehyde 59 from X-allyl-A -methylbenzamide (58), whereas the use of aqueous DME results in the predominant formation of the methyl ketone 60. Similar results are obtained with allylic acetates and allylic carbonates[102]. The complete reversal of the regioselectivity in PdCli-catalyzed oxidation of alkenes is remarkable. [Pg.30]

Allylic acetates are widely used. The oxidative addition of allylic acetates to Pd(0) is reversible, and their reaction must be carried out in the presence of bases. An important improvement in 7r-allylpalladium chemistry has been achieved by the introduction of allylic carbonates. Carbonates are highly reactive. More importantly, their reactions can be carried out under neutral con-ditions[13,14]. Also reactions of allylic carbamates[14], allyl aryl ethers[6,15], and vinyl epoxides[16,17] proceed under neutral conditions without addition of bases. [Pg.292]

Wylation under neutral conditions. Reactions which proceed under neutral conditions are highly desirable, Allylation with allylic acetates and phosphates is carried out under basic conditions. Almost no reaction of these allylic Compounds takes place in the absence of bases. The useful allylation under neutral conditions is possible with some allylic compounds. Among them, allylic carbonates 218 are the most reactive and their reactions proceed under neutral conditions[13,14,134], In the mechanism shown, the oxidative addition of the allyl carbonates 218 is followed by decarboxylation as an irreversible process to afford the 7r-allylpalladium alkoxide 219. and the generated alkoxide is sufficiently basic to pick up a proton from active methylene compounds, yielding 220. This in situ formation of the alkoxide. which is a... [Pg.319]

Allylalion of the alkoxymalonitrile 231 followed by hydrolysis affords acyl cyanide, which is converted into the amide 232. Hence the reagent 231 can be used as an acyl anion equivalent[144]. Methoxy(phenylthio)acetonitrile is allylated with allylic carbonates or vinyloxiranes. After allylation. they are converted into esters or lactones. The intramolecular version using 233 has been applied to the synthesis of the macrolide 234[37]. The /i,7-unsaturated nitrile 235 is prepared by the reaction of allylic carbonate with trimethylsilyl cyanide[145]. [Pg.321]

Phenols arc highly reactive 0-nucleophiles and allylated easily with allylic carbonates under neutral conditions. EWGs on phenols favor the reac-tion[213]. Allylic acetates are used for the allylation of phenol in the presence of KF-alumina as a base[214]. [Pg.337]

Various S-nucleophiles are allylated. Allylic acetates or carbonates react with thiols or trimethylsilyl sulfide (353) to give the allylic sulfide 354[222], Allyl sulfides are prepared by Pd-catalyzed allylic rearrangement of the dithio-carbonate 355 with elimination of COS under mild conditions. The benzyl alkyl sulfide 357 can be prepared from the dithiocarbonate 356 at 65 C[223,224], The allyl aryl sufide 359 is prepared by the reaction of an allylic carbonate with the aromatic thiol 358 by use of dppb under neutral condi-tions[225]. The O-allyl phosphoro- or phosphonothionate 360 undergoes the thiono thiolo allylic rearrangement (from 0-allyl to S -allyl rearrangement) to afford 361 and 362 at 130 C[226],... [Pg.338]

Silyl enol ethers are other ketone or aldehyde enolate equivalents and react with allyl carbonate to give allyl ketones or aldehydes 13,300. The transme-tallation of the 7r-allylpalladium methoxide, formed from allyl alkyl carbonate, with the silyl enol ether 464 forms the palladium enolate 465, which undergoes reductive elimination to afford the allyl ketone or aldehyde 466. For this reaction, neither fluoride anion nor a Lewis acid is necessary for the activation of silyl enol ethers. The reaction also proceed.s with metallic Pd supported on silica by a special method[301j. The ketene silyl acetal 467 derived from esters or lactones also reacts with allyl carbonates, affording allylated esters or lactones by using dppe as a ligand[302]... [Pg.352]

The reaction can be applied to the synthesis of q, /3-unsaturated esters and lactones by treatment of the ketene silyl acetal 551 with an allyl carbonate in boiling MeCN[356]. The preparation of the q,, 3-unsaturated lactone 552 by this method has been used in the total synthesis of lauthisan[357]. [Pg.364]

Diethylene glycol bis (chloroformate) [106-75-2] is the starting material for diethylene glycol bis(allyl carbonate) [142-22-3] CR-39, or Nouryset 200, monomer, used in the manufacture of break-resistant optical lenses, which is obtained by the reaction with aHyl alcohol [107-18-6] (59). Alternatively, it can be obtained from aHyl chloroformate [2937-50-0] and diethylene glycol (60) (see Allylmonomers and polymers). [Pg.41]

This reaction showed a remarkable selectivity with respect to the solvent and base used. In THF and EtOAc using TEA as the base, a 1 1 mixture of the allylic carbonate and bisacylated products is obtained, but when CH2CI2 is used as solvent, the reaction favors the allylic alcohol by a factor of 97 3 (mono/bis). In THF or MTBE, the use of TMEDA as the base also results in a 97 3 mono/bis ratio. ... [Pg.184]

Allylsilanes are available by treatment of allyl acetates and allyl carbonates with silyl cuprates17-18, with antarafacial stereochemistry being observed for displacement of tertiary allyl acetates19. This reaction provides a useful asymmetric synthesis of allylsilanes using esters and carbamates derived from optically active secondary alcohols antarafacial stereochemistry is observed for the esters, and suprafacial stereochemistry for the carbamates20,21. [Pg.342]

When enantiomerically pure allyl p-tolyl sulfoxide is deprotonated and then treated with electrophilic 2-cyclopentenone, a conjugate addition occurs forming a new carbon-carbon bond with very high control of absolute stereochemistry (equation 25)65. See also Reference 48. Similarly, using more substituted enantiomerically pure allylic sulfoxides leads to virtually complete diastereocontrol, as exemplified by equations 26 and 27 the double bond geometry in the initial allylic sulfoxide governs the stereochemistry at the newly allylic carbon atom (compare equations 26 vs. 27)66. Haynes and associates67 rationalize this stereochemical result in terms of frontier molecular orbital considerations... [Pg.834]

ADMET reaction. The 13C NMR spectrum also allows the scientist to distinguish between cis and trans internal sp2 carbons as well as the allylic carbons, which are adjacent to the internal vinyl position. Using quantitative 13C NMR analysis, the integration of the peak intensities between die allylic carbon resonances and diose of the internal vinyl carbons gives die percentage of trans/cis stereochemistry diat is present for the polymer.22 Empirically, the ratio of trans to cis linkages in ADMET polymers has typically been found to be 80 20. Elemental analysis results of polymers produced via ADMET demonstrate excellent agreement between experimental and theoretical values. [Pg.443]

Aregioselective catalytic system for the allylic substitution of non-symmetric allyl carbonates by carbon and nitrogen nucleophiles based on [ Bu N][Fe(NO)(CO)3] and PPhj was developed (Scheme 2.26). The high regioselectivity was ascribed to the slow a-allyl- to Jt-aUyl-isomerisation relative to the rate of substitution. However, the use of high excess of the pro-nucleophile and DMF solvent are drawbacks on the atom efficiency and functional group tolerance of the system. [Pg.52]

Allyl carbonate esters are also useful hydroxy-protecting groups and are introduced using allyl chloroformate. A number of Pd-based catalysts for allylic deprotection have been developed.209 They are based on a catalytic cycle in which Pd° reacts by oxidative addition and activates the allylic bond to nucleophilic substitution. Various nucleophiles are effective, including dimedone,210 pentane-2,4-dione,211 and amines.212... [Pg.266]

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