Malonates aryl substituted

Addition of dimethylsulfonium methylide (122) to various Michael acceptors (121), followed by alkylation, has been reported to produce functionalized 1-substituted alkenes (124), arising via the unprecedented elimination (123), rather than the usual cyclopropanation products. In silyl substituted substrates, where a facile Peterson-type olefination is possible from the adduct, elimination took place instead. Aryl-substituted Michael acceptors (121 R1 = Ar) underwent a similar olefination to give 1-substituted styrene derivatives with moderate yields along with a side product, which arose by nucleophilic demethylation from the adduct of dimethylsulfonium methylide and arylidene malonates. Hammett studies revealed that selectivity for olefination versus demethylation increases as the aryl substituent becomes more electron deficient.164... 

The regiospecific nucleophilic displacement of 1,2-cyclic sulfamidates 130 with methyl thioglycolate or a-amino esters 130 can be accompanied by lactamization (thermal, base mediated, or cyanide catalyzed) to give thiomorpho-lin-3-ones and piperazin-2-ones 131 (Scheme 19) <20030L811>. If malonate esters, phosphonate-stabilized esters, or aryl-substituted enolates were used as nucleophiles in this reaction, trisubstituted pyrrolidines were obtained in high yield <2004OL4727>. 

This method is useful for aryl-substituted malonates 27 where the normal alkylation of the malonate anion 26 is impossible as Sn2 reactions fail on unactivated aryl halides. For Ar = Ph reaction of 28 with NaH and diethyl carbonate gives3 27 Ar = Ph in 86% yield. 

The catalytic enantioselective addition of aromatic C - H bonds to alkenes would provide a simple and attractive method for the formation of optically active aryl substituted compounds from easily available starting materials. The first catalytic, highly enantioselective Michael addition of indoles was reported by Jorgensen and coworkers. The reactions used a,fl-unsaturated a-ketoesters and alkylidene malonates as Michael acceptors catalyzed by the chiral bisoxazoline (BOX)-metal(II) complexes as described in Scheme 27 [98,99]. 

Solid phase synthesis of highly substituted thiophene derivatives 15 using a cyclic malonic acid ester resin 14 was also reported. Highly pure thiophene derivatives were reported to have been prepared by this solid phase synthesis <0314851>. While alkyl or aromatic substitutions on the P position to the carbonyl yielded the corresponding 5-alkyl/aryl substituted 2-acyl aminothiophene, acetaldehyde did not produce the corresponding 2,3- disubstituted thiophene. 

Indanones are very useful and versatile intermediates in the synthesis of metallocene catalysts. Scheme 1 has the synthetic scheme originally used for the preparation of 2-alkyl-4-aryl-substituted ansa metallocenes [9-11]. In the first part of this sequence, the biaryl unit is assembled and the missing carbon atoms are introduced as a side chain. The reaction of 2-phenylbenzyl bromide with malonic acid ethyl ester under basic conditions, followed by a decarboxylation, affords the 2-(2-phenylbenzyl)propionic acid. Chlorination and Friedel-Crafts acylation yields the 2-methyl-4-phenylindanone in 93 % yield. From here, only a few standard transformations are required to complete the synthesis, finally yielding the desired metallocene. 

Aryl substituted malonates (27) are usually made this way as the alternative disconnection (a) requires the unknown 8 2 reaction at an aryl halide. 

This approach has also been applied to the use of malonates as C-H acidic carbon pro-nucleophiles, observing that the reaction performed excellently with a wide range of different chalcones and (3-aryl substituted 2-butenones (Scheme 4.28). Moreover, other 1,3-dicarbonyl compounds and related derivatives such as malononitriles, (3-ketoesters, 2,4-pentanedione and ethyl nitroacetate have also been tested with success in the reaction using chalcone as Michael acceptor. In an independent work, the use of cyanoacetates was also surveyed with good results, although in this case mixtures of diastereoisomers were typically obtained. In all these cases, the stereochemical outcome of the reaction was consistent with the model proposed by Soos. 

It follows therefore that ethyl malonate can be used (just as ethyl aceto- acetate) to prepare any mono or di-substituted acetic acid the limitations are identical, namely the substituents must necessarily be alkyl groups (or aryl-alkyl groups such as CjHjCHj), and tri-substituted acetic acids cannot be prepared. Ethyl malonate undergoes no reaction equivalent to the ketonic hydrolysis of ethyl acetoacetate, and the concentration of the alkali used for the hydrolysis is therefore not important. 

The last-named reaction provides an excellent method for the preparation of a-substituted glutaric acids the intermediate alkyl (aryl) -2-cyanoethyl-malonate is both hydrolysed and decarboxylated re ily by boiling with an excess of 48 per cent, hydrobromic acid solution. 

Aryl halides react too slowly to undergo substitution by the Sn2 mechanism with the sodium salt of diethyl malonate and so the phenyl substituent of phenobarbital cannot be introduced in the way that alkyl substituents can... 

Reaction with Carbon Nucleophiles. Unactivated a2iddines react with the lithium salts of malonates or p-keto esters in the presence of lithium salts to yield 3-substituted pyttohdinones (56—59), where R = alkyl and aryl, and R = alkoxyl, alkyl, and aryl. 

Condensation of Af-aryliminochlorides with malonic ester followed by thermal cyclization, as initially reported by Just, was found to be a general method for the preparation of 2, 3, 4-substituted quinolines. Various substituents on the aryl ring of the iminochloride proved uneventful, even though the conditions required to generate the iminochloride utilized PCI5. 

P-keto acid X = alkyl or aryl = ketone substituted malonic acid X=OH = substituted acetic acid... 

With malonic esters and amides substituted at the central carbon, triazole formation is accompanied by decarboxylation and 4-alkyl-or 4-aryl-5-hydroxytriazoles are isolated. ... 

Stabilized carbon nucleophiles (e.g. from 3-diketones, 3-keto esters, malonate esters, etc.) can be aryl-ated by substitution for chloride on the arene in (Fe(arene)Cp] cation complexes.72-78 81 A base is necessary and two heterogeneous systems are favored potassium carbonate in DMF or potassium fluoride prepared on Celite-545. As usual in the [FeCp]+ system, detachment of the substituted arene requires somewhat extreme conditions, usually pyrolytic sublimation at 200 C.46 An example is given in equation (27). 

In the presence of 10 mol% of this catalyst, the malonates 56 could be added to several nitroolefins 57 with up to 93% ee. Apolar solvents such as toluene are crucial for high ee values. It is also noteworthy that (i) good ee can be achieved with catalyst 55 even in the absence of solvents, i.e. with a mixture of the neat starting materials 56 and 57, and that (ii) the range of Michael donors/acceptors includes aryl- and alkyl-substituted nitroolefins and 2-alkylated malonates. 

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