Esters self-condensation

Hydroxythiazole, from chloroacetaldehyde and ammonium thiocaibamate, 258 4-Hydroxy-2-thiazolecarboxylic acid ethyl ester, self condensation of, 294 synthesis of, from ethylcyanoacetate and ethylthioglycolate, 294 from thioamides and a-haloacids or esters, 294... 

The success of both peptide cyclizations and ester enolate tnqiping is due to the lesser mobility of polymer-bound species, which reduces the rates of die bimolecular reactions that lead to higher oligomeric peptides or to ester self-condensation. 

In solution aliphatic esters are acylated or alkylated at the a position by treatment with a hindered organolithium base at dry ice temperature to generate an enolate, followed by addition of a carboxylic acid chloride or an alkyl bromide. At higher temperatures the ester self-condenses rapidly during the time of enolate generation. When the ester is bound to a slightly swellable 10-20% cross-linked PS, acylations and alkylations proceed at room temperature with 73-90% yields and little or no competing self-condensation of the ester as shown in Scheme 26. Self-condensation is retarded because it requires reaction of two polymer-bound species with each other. 

This synthesis of the pyrrole ring system, due to Knorr, consists in the condensation of an a-aminoketone with a 1,3-diketone or the ester of a p-keto-acid, a-Aminoketones are unstable in the free state, readily undergoing self-condensation consequently they must be prepared, by the reduction of an a-nitroso (or oximino) ketone, in the presence of the 1,3-diketone or p-ketoester, to ensure rapid interaction. 

An example of an intermolecular aldol type condensation, which works only under acidic catalysis is the Knoevenagel condensation of a sterically hindered aldehyde group in a formyl-porphyrin with a malonic ester (J.-H. Fuhrhop, 1976). Self-condensations of the components do not occur, because the ester groups of malonic esters are not electrophilic enough, and because the porphyrin-carboxaldehyde cannot form enolates. 

Liquid crystal polyesters are made by a different route. Because they are phenoHc esters, they cannot be made by direct ester exchange between a diphenol and a lower dialkyl ester due to unfavorable reactivities. The usual method is the so-called reverse ester exchange or acidolysis reaction (96) where the phenoHc hydroxyl groups are acylated with a lower aHphatic acid anhydride, eg, acetic or propionic anhydride, and the acetate or propionate ester is heated with an aromatic dicarboxyHc acid, sometimes in the presence of a catalyst. The phenoHc polyester forms readily as the volatile lower acid distills from the reaction mixture. Many Hquid crystal polymers are derived formally from hydroxyacids (97,98) and thein acetates readily undergo self-condensation in the melt, stoichiometric balance being automatically obtained. 

On treatment with alkoxide bases, esters undergo self-condensation to give a p-keto ester and an alcohol. Ethyl acetate, for exanple, undergoes a Claisen condensation on treatment with sodium ethoxide to give a p-keto ester known by its common nane ethyl ace-toacetate (also called acetoacetic ester) ... 

Thus the reactions of cyclic or acyclic enamines with acrylic esters or acrylonitrile can be directed to the exclusive formation of monoalkylated ketones (3,294-301). The corresponding enolate anion alkylations lead preferentially to di- or higher-alkylation products. However, by proper choice of reaction conditions, enamines can also be used for the preferential formation of higher alkylation products, if these are desired. Such reactions are valuable in the a substitution of aldehydes, which undergo self-condensation in base-catalyzed reactions (117,118). Monoalkylation products are favored in nonhydroxylic solvents such as benzene or dioxane, whereas dialkylation products can be obtained in hydroxylic solvents such as methanol. The difference in products can be ascribed to the differing fates of an initially formed zwitterionic intermediate. Collapse to a cyclobutane takes place in a nonprotonic solvent, whereas protonation on the newly introduced substitutent and deprotonation of the imonium salt, in alcohol, leads to a new enamine available for further substitution. 

Less important methods are the self condensation of w-hydroxy acid and the ring opening of lactones and cyclic esters. In self condensation of w-hydroxy acids, cyclization might compete seriously with linear polymerization, especially when the hydroxyl group is in a position to give five or six membered lactones. 

It is also possible to prepare them from amino acids by the self-condensation reaction (3.12). The PAs (AABB) can be prepared from diamines and diacids by hydrolytic polymerization [see (3.12)]. The polyamides can also be prepared from other starting materials, such as esters, acid chlorides, isocyanates, silylated amines, and nitrils. The reactive acid chlorides are employed in the synthesis of wholly aromatic polyamides, such as poly(p-phenyleneterephthalamide) in (3.4). The molecular weight distribution (Mw/Mn) of these polymers follows the classical theory of molecular weight distribution and is nearly always in the region of 2. In some cases, such as PA-6,6, chain branching can take place and then the Mw/Mn ratio is higher. 

An important group of acylation reactions involves esters, in which case the leaving group is alkoxy or aryloxy. The self-condensation of esters is known as the Claisen condensation.216 Ethyl acetoacetate, for example, is prepared by Claisen condensation of ethyl acetate. All of the steps in the mechanism are reversible, and a full equivalent of base is needed to bring the reaction to completion. Ethyl acetoacetate is more acidic than any of the other species present and is converted to its conjugate base in the final step. The (3-ketoester product is obtained after neutralization. 

Whereas in alcohols as solvents good yields of esters are obtained a self-condensation of the ester was observed in THF.[123]... 

Crossed Claisen reactions with two different esters, each of which has a-H atoms, are seldom useful synthetically as there are, of course, four possible products. Crossed Claisen reactions are, however, often useful when one of the two esters has no a-H atoms, e.g. HCOzEt, ArC02Et, (C02Et)2, etc., as this can act only as a carbanion acceptor. Such species are in fact good acceptors, and the side reaction of the self-condensation of the other, e.g. RCH2C02Et, ester is not normally a problem. Intramolecular Claisen reactions, where both C02Et groups are part of the same molecule [e.g. (123)], are referred to as Dieckmann cyclisations. These work best, under simple conditions, for the formation of the anions of 5-, 6- or 7-membered cyclic / -ketoesters... 

HN Rydon, PWG Smith. Self-condensation of the esters of peptides of glycine and proline. J Chem Soc 3642, 1956. 

Sodium benzoate has been identified as a mild and efficient catalyst for the tandem Michael-aldol self-condensation of y,5-unsaturated-/3-keto esters, affording conjugated vinylcyclohexenonedicarboxylates, some of which exhibit biological activity against ectoparasites in cattle. 

The synthesis works well only with an activated ester like ethyl acetoacetate. Otherwise, self-condensation... 

Trollsas M, Lowenhiehn P, Lee VY, Mbller M, Miller RD, Hedrick JL (1999) New approach to hyperbranched polyesters self-condensing cyclic ester polymerization of bis (hydroxymethyl)-substituted e-caprolactone. Macromolecules 32 9062-9066... 

An important group of these reactions involves esters, in which case the leaving group is alkoxy or aryloxy. The self-condensation of esters is known as the Claisen condensation. 118 Ethyl acetoacetate, for example, is prepared by Claisen condensation of ethyl... 

The common condensation polymers and the reactions by which they are formed are shown in Table 1-1. It should be noted from Table 1-1 that for many of the condensation polymers there are different combinations of reactants that can be employed for their synthesis. Thus polyamides can be synthesized by the reactions of diamines with diacids or diacyl chlorides and by the self-condensation of amino acids. Similarly, polyesters can be synthesized from diols by esterification with diacids or ester interchange with diesters. 

Undesirable intermolecular reactions can be avoided during certain synthetic conversions. Thus it is often useful to carry out C-alkylation and C-acylation of compounds that form enolate anions, for example, esters with a-hydrogens. Such reactions are often complicated by self-condensation since the enolate anion can attack the carbonyl group of a second ester molecule. Attachment of the enolizable ester to a polymer support at low loading levels allows the alkylation and acylation reactions (Eq. 9-79) to be performed under... 

The von Pechmann procedure also works with keto esters. Ethyl ace-toacetate (ethyl 3-oxobutanoate), for example, self-condenses readily in the presence of acid to form ethyl 4,6-dimethylpyran-2-one-5-carboxylate (Scheme 4.8b). 

Cyclic alkyl nitronates may be used in tandem [4+2]/[3+2] cycloadditions of nitroalkanes, and this reaction has been extensively studied by Denmark et al. (64,333-335). In recent work, they developed the silicon-tethered heterodiene-alkene 219 (Scheme 12.63). Steric hindrance and the fact that both the nitroalkene and the a,p-unsaturated ester in 219 are electron deficient renders the possibility of self-condensation. Instead, 219 reacts with the electron-rich chiral vinyl ether 220 in the presence of the catalyst 224 to form the intermediate chiral nitronate 221. The tandem reaction proceeds from 221 with an intramolecular 1,3-dipolar cycloaddition to form 222 with 93% de. Further synthetic steps led to the formation of ( )-detoxinine 223 (333). A similar type of tandem reaction has also been applied by Chattopadhyaya and co-workers (336), using 2, 3 -dideoxy-3 -nitro-2, 3 -didehydrothymidine as the starting material (336). 

It is well known that derivatives of a-amino acids, especially the esters, can undergo cyclodimerization to form piperazine-2,5-diones. The stereochemistry of such self-condensation of initial stages but increasing amounts of the trans product were formed later. The results have been interpreted as reflecting the difference in the rates of cyclization of the two diastereomeric dipeptide esters. 

In fact the self condensation of aldehydes and ketones is a good way to make Michael reagents. We can t however make a-(3 unsaturated esters this way. How can we make this, then PhCH=CHC02Et... 

We made (3-keto esters in the past by the self condensation of esters (frames 221-230). This molecule is also made by the self condensation of an ester. 

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