Malonic acid, condensation reactions

Reaction XXXm. (b) Condensation of Malonic Adds with Aldehydes or some Ketones under the influence of Primary or Secondary Amines. (B., 35,1143.)—This is an example of the activating effect of two 1 3 oxy groups on a methylene group between them. In the presence of primary or secondary amines—e.g., ethylamine, di-ethylamine, piperidine— malonic acid condenses with aldehydes and some ketones to give unsaturated dicarboxylic acids. It is probable that the amine reacts first with the aldehyde, water being eliminated. 

Bicyclo[3.2.l]octa-2,6-dienes 12 are obtained during either a Wittig reaction or malonic acid condensation wih aldehydes 10. It is noteworthy that 10 is in equilibrium with 13 at room... 

Subsequently the isobufadienolide (51) was obtained directly from the enol ether-aldehyde (45) by condensation with malonic acid. This reaction, which requires the presence of a secondary amine and for which the following mechanism has been proposed, has been applied to the A -analogue of (45) in both the 5a- and A -series, and the resulting A -b -isobufadienolides have been further converted into their 14,15-epoxides. 

Reactions using highly acidic active methylene compounds (pAa = 9-13) comprise nearly all the early examples of imine condensation reactions, some of which date back to the turn of the century. Reviews by Layer and Harada have summarized many of these reactions and include examples using diethyl malonate, ethyl cyanoacetate, ethyl malonamide, acetoacetic acid, benzoylacetic esters and nitroalkanes. Conditions of these reactions vary they have been performed both in protic and aptotic solvents, neat, and with and without catalysts. Elevated temperatures are generally required. Reactions with malonates have useful applications for the synthesis of 3-amino acids. For example, hydrobenzamide (87), a trimeric form of the benzaldehyde-ammonia Schiff base, and malonic acid condense with concomitant decarboxylation to produce p-phenylalanine (88) in high yield (equation 14). This is one of the few examples of a Mannich reaction in which a primary Mannich base is produced in a direct manner but is apparently limited to aromatic imines. 

Condensation of thiophene-3-carbaldehyde 38 with malonic acid (Doebner reaction) in a mixture of pyridine (Py) and piperidine (Hp) with heating affords ( )-3-(3-thienyl)acrylic add (42), whose treatment with thionyl chloride in Py produces 3-chlorothieno[2,3-6]thiophene-2-carboxylic add chloride (43) (72ACS2982,... 

The reaction is readily illustrated by the formation of crystalline sorbic acid by the condensation of crotonaldehyde and malonic acid in hot pyridine solution ... 

Ootonic acid may be prepared by condensing acetaldehyde with malonic acid in pyridine solution in the presence of a trace of piperidine (Doebner reaction see discussion following Section IV,123). 

This preparation is another example of the condensation of an aldehyde with malonic acid and pyridine to 3neld ultimately an ap-unsaturated acid (Doebner reaction). It is included here because, unlike the acids prepared from many of the lower aUphatic aldehydes, the product consists largely (about 95 per cent.) of the ap-isomeride and only about 5 per cent, of the PY-isomeride is present ... 

Sorbic acid is prepared by the condensation of crotonaldehj de with malonic acid ill the presence of pyridine at 100° (Doebner reaction) ... 

Knoevenagel reaction. The condensation of an aldehyde with an active methylene compound (usually malonic acid or its derivatives) in the presence of a base is generally called the Knoevenagel reaction. Knoevenagel found that condensations between aldehydes and malonic acid are effectively catalysed by ammonia and by primary and secondary amines in alcoholic solution of the organic amines piperidine was regarded as the best catalyst. 

Method 2. Place 48 g. (41 -5 ml.) of freshly-distilled furfural, 52 g. of dry malonic acid (1), and 24 ml. of dry pyridine (2) in a 500 ml. round-bottomed flask, fitted with a reflux condenser. Heat the flask on a boiling water bath for 2 hours, cool the reaction mixture and dilute with 50 ml. of water. Dissolve the acid by the addition of concentrated ammonia solution, filter the solution and wash the filter paper with a... 

A classical way to achieve regioselectivity in an (a -i- d -reaction is to start with a-carbanions of carboxylic acid derivatives and electrophilic ketones. Most successful are condensations with 1,3-dicarbonyl carbanions, e.g. with malonic acid derivatives, since they can be produced at low pH, where ketones do not enolize. Succinic acid derivatives can also be de-protonated and added to ketones (Stobbe condensation). In the first example given below a Dieckmann condensation on a nitrile follows a Stobbe condensation, and selectivity is dictated by the tricyclic educt neither the nitrile group nor the ketone is enolizable (W.S. Johnson, 1945, 1947). 

Reactions. Heating an aqueous solution of malonic acid above 70°C results in its decomposition to acetic acid and carbon dioxide. Malonic acid is a useful tool for synthesizing a-unsaturated carboxyUc acids because of its abiUty to undergo decarboxylation and condensation with aldehydes or ketones at the methylene group. Cinnamic acids are formed from the reaction of malonic acid and benzaldehyde derivatives (1). If aUphatic aldehydes are used acryhc acids result (2). Similarly this facile decarboxylation combined with the condensation with an activated double bond yields a-substituted acetic acid derivatives. For example, 4-thiazohdine acetic acids (2) are readily prepared from 2,5-dihydro-l,3-thiazoles (3). A further feature of malonic acid is that it does not form an anhydride when heated with phosphorous pentoxide [1314-56-3] but rather carbon suboxide [504-64-3] [0=C=C=0], a toxic gas that reacts with water to reform malonic acid. 

Reaction with Alkyl Halide. The active methylene group of an Al-acylamino-malonic acid ester or Ai-acylamino cyanoacetic acid ester condenses readily with primary alkyl hahdes. 

The diacids are characterized by two carboxyHc acid groups attached to a linear or branched hydrocarbon chain. AUphatic, linear dicarboxyhc acids of the general formula HOOC(CH2) COOH, and branched dicarboxyhc acids are the subject of this article. The more common aUphatic diacids (oxaUc, malonic, succinic, and adipic) as weU as the common unsaturated diacids (maleic acid, fumaric acid), the dimer acids (qv), and the aromatic diacids (phthaUc acids) are not discussed here (see Adipic acid Maleic anhydride, maleic acid, and fumaric acid Malonic acid and derivatives Oxalic acid Phthalic acid and OTHERBENZENE-POLYCARBOXYLIC ACIDS SucciNic ACID AND SUCCINIC ANHYDRIDE). The bihinctionahty of the diacids makes them versatile materials, ideally suited for a variety of condensation polymerization reactions. Several diacids are commercially important chemicals that are produced in multimillion kg quantities and find appHcation in a myriad of uses. 

Catalytic reduction of the nitrile 79 in the presence of semicarbazide affords initially the semicarbazone of 80. Hydrolysis-interchange, for example in the presence of pyruvic acid, gives the aldehyde 80. Condensation with the half ester of malonic acid leads to the acrylic ester 81 the double bond is then removed by means of catalytic reduction (82). Base catalyzed reaction of the... 

A. tn-NUrocinnamic acid. In a 1-1. round-bottomed flask fitted with a reflux condenser are placed 151 g. (1 mole) of tw-nitro-benzaldehyde (Note 1), 115 g. (1.1 moles) of malonic acid, 250 ml. of 95% ethanol, and 25 ml. of pyridine. The mixture is heated on a steam bath under gentle reflux for 6-8 hours and cooled. The large masses of crystals are broken up with a spatula, and the reaction mixture is cooled in an ice bath. The solid is collected on a Buchner funnel, and the residue is washed with 100 ml. of cold ethanol and then with two 100-ml. portions of diethyl ether. The crude w-nitrocinnamic acid is suspended in 300 ml. of ethanol and digested on a steam plate for 2-3 hours. The mixture is cooled and filtered, and the solid is air-dried. The product, 144 155 g. (75-80%), is a light-yellow solid and melts at 200-201° (Note 2). 

Higher-molecular-weight normal 2-alkenoic acids have been prepared in poor yields by the Doebner condensation of aldehydes with malonic acid,5-7 and by the Reformatsky reaction of aldehydes with ethyl bromoacetate followed by dehydration.8 The a-iodo acid, prepared from the bromo acid, has been dehydrohalogenated with potassium hydroxide in ethanol,9 but large quantities of the a-hydroxy acid are formed as a by-product which is difficult to separate in some instances. The present procedure is an adaptation of a published method.6... 

The methylene groups of hippuric acid and malonic acid are much more reactive than that of acetic acid. They may be caused, therefore, to condense with aldehydes under much milder conditions, e.g. by the action of pyridine. The use of malonic acid forms an extension of Perkin s reaction to the aliphatic series (Doebner), e.g. 

Trimethoprim has also been synthesized by condensing 3,4,5-trimethoxybenzaldehyde with malonic acid dinitrile in a Knoevenagel reaction, which forms the derivative (33.1.53), which is partially reduced to the enamine (33.1.54) by hydrogen using a palladium on carbon catalyst, which upon being reacted with guanidine is transformed into trimethoprim [52,53]. 

The carbon nucleophiles in amine-catalyzed reaction conditions are usually rather acidic compounds containing two electron-attracting substituents. Malonic esters, cyanoacetic esters, and cyanoacetamide are examples of compounds which undergo condensation reactions under Knoevenagel conditions.115 Nitroalkanes are also effective nucleophilic reactants. The single nitro group sufficiently activates the a hydrogens to permit deprotonation under the weakly basic conditions. Usually, the product that is isolated is... 

Microwave-assisted procedures have also been developed for the condensation of substituted amidines and ureas with malonic acid derivatives <2005TL5727, 2007AJC120>. For example, reaction of substituted ureas 668 with malonic acid 667 in the presence of acetic anhydride gave 1,3-disubstituted barbituric acids 669, while similar condensation with cyanoacetic acid 670 gave 6-aminouracil derivatives 671 <2005TL5727>. 

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