Malonic acid, Nitro

Substances that form carbanions, such as nitro compounds, hydrocyanic acid, malonic acid, or acetylacetone, react with vinyl ethers in the presence of water, replacing the alkyl group under mild conditions (245). 

Here too there is an enol that tautomerizes to the product. The mechanism is illustrated for the case of P-keto acids, ° but it is likely that malonic acids, a-cyano acids, a-nitro acids, and P,y-unsaturated acids behave similarly, since similar six-membered transition states can be written for them. Some a,P-unsaturated acids are also decarboxylated by this mechanism by isomerizing to the p,y-isomers before... 

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). 

MALONALDEHYDE, NITRO-, SODIUM DERIVATIVE, 32, 95 Malonic acid, 31, 35 33, 20, 62 Malonic acid, ethylidene, diethyl ESTER, 32, 54... 

In 2006, our research group reported a novel MCR based on the reactivity of a-acidic isocyano esters (1) toward 1-azadienes (84) generated by the 3CR between phosphonates, nitriles, and aldehydes [169]. Remarkably, the dihydropyridone products (85) for this 4CR contained the intact isonitrile function at C3. The exceptional formation of the 3-isocyano dihydropyridone scaffold can be explained by the Michael-attack of the a-deprotonated isonitrile (1) to the (protonated) 1-azadiene (84), followed by lactamization via attack of the ester function by the intermediate enamine. Although in principle the isocyano functionality is not required for the formation of the dihydropyridone (85) scaffold, all attempts using differently functionalized esters (e.g., malonates, ot-nitro, and a-cyano esters) gave lower yields of the dihydropyridone analogs [170] (Fig. 26). 

Benzo[6]thiophene aldehydes have been condensed with a variety of active methylene compounds, including cyclic511, 644 and open-chain645-647 ketones, aliphatic aldehydes,90 benzyl cyanides,93-436 malononitrile,487 rhodanine,144,648 hippuric acid,477 barbituric acid,487 diethyl malonate,487 and malonic acid (Section VI,M). Aliphatic nitro compounds condense smoothly with most benzo[6]-thiophene aldehydes03,141,337,343, 556,640,650 (except 5-hydroxy- and... 

Pollutant 4-Nitro phenol 2-Chloro phenol Malonic acid Phenol, 4-CP,... 

Substituted benzaldehydes and malonic acid give cinnamic acids in excellent yields. Among the common nuclear substituents are methyl, halo, " hydroxyl, methoxyl, " cyano, nitro, and diethylamino groups. Other /fi-arylacrylic acids have been made by the use of a-naphthaldehyde, phenanthraldehydes, and furfural. Phenyl-substituted aliphatic aldehydes have also been used in this condensation. ... 

The data for this solvent were not used to calculate the parameters in Table 54. Similarly the data for decarboxylation of oxanilic acid in anisole were not used for the AH -AS correlation. With the reported AH value of 32.6 kcal.mole , the entropy of activation is calculated to be 3.59 0.03 eu compared to the reported value of 11.1 eu. In the decarboxylation of malonic acid, the data obtained with pyridine and ) -mercaptopropionic acid solvents deviated considerably from the plots and were not included in the correlation. The data for malonic acid decarboxylation appeared to be best correlated by two lines. One line was described by the following solvents acids, phenols, nitro-aromatics, benzaldehyde, and the melt the other line involved amines, alcohols, dimethylsulfoxide and triethyl phosphate. The latter line was not as well defined as the former. However, it was our intention to correlate as many solvents as possible with a minimum number of lines. The data for decarboxylation of malonic acid in water and in benzyl alcohol fell between these two lines and were not included in either correlation. The data for decarboxylation of benzylmalonic acid also appeared to be best correlated with two lines. One line was defined by the cresols, acids and the melt, while the other line was defined by the amines. Decarboxylation of cinnamalmalonic acid was correlated by two lines as indicated in Table 54. Similarly j8-resorcylic acid was correlated by two lines. The separation of data into parallel lines is presumably due to multiple solvation mechanisms . In support of this interpretation it is seen that when two lines are observed, acids fall into one line and amines into the other. It is not unexpected that the solvation mechanisms for these two classes of solvents would differ. It is interesting to note that all of the nitrogen containing acids are correlated reasonably well with one line for both basic and acidic solvents. Also the AHq values fall in a rather narrow range for all of the acids. From the values of p in Table 54, there appears to be little correlation between this parameter and the melting point of the acids, contrary to prior reports " ... 

The general approach can be enlarged and conditions for condensation made milder by the use of further-activated esters, thus condensation with methyl nitroacetate produces 3-nitro-coumarins, condensations with Wittig ylides " allow orffto-hydroxyaryl ketones to be used ° and the use of diethyl malonate (or malonic acid ) (a 3-ester can be removed by hydrolysis and decarboxylation ), malononitrile, ethyl trifluo-roacetoacetate, or substituted acetonitriles in a Knoevenagel condensation, produces coumarins with a 3-ester, 3-trifluoroacetyl, " 3-cyano, or 3-alkyl or -aryl substituent. Condensation with IV-acetylglycine generates 3-acetylamino-coumarins. ... 

Attempts to hydrolyze the ester group in the o-nitro-2- and 4-pyridyl acetates XI-19, synthesized by treating the corresponding pyridyl halide with a malonic acid derivative, were unsuccessful using either basic or acidic conditions. The... 

An earlier version of this reaction condensed 4.18 and malonic acid to give 4.19. Refluxing 4.19 led to the monomer 4.20), which decarboxylated under the reaction conditions to give 3-amino-3-phenylpropanoic acid, 4.21. Doebner condensation with malonic acid itself sometimes leads to very poor yields of product, as seen above. An improvement in the reaction used nitro-ester 4.22 rather than malonic acid, and 4.23 [ethyl 3-(N-phenylamino)-2-nitroprop-2E-enoate] was produced in good yield. 

In 1988 Reetz et al. introduced the concept of metal-free polymerization of acrylates, methacrylates and acrylonitrile [224,225]. Metal-free initiators are salts consisting of a carbanion (A ) having R4N as cationic counterions. They are synthesized by the reaction of neutral CH or NH-acidic compounds such as malonic acid esters, nitriles, sulfones, nitro-alkanes, cyclopentadiene, fluorene derivates, carbazoles and succinimide. Water is removed azeotropically using toluene. 

Literature procedures were employed in the synthesis of 4-amlno-3-hydroxybenzoic acid 1 (9) and 3-amlno-4-hydroxyphenylace-tic acid (10). The propanoic and propenoic compounds were obtained as outlined in Figure 1. In both Isomeric systems, the intermediate hydroxynitrobenzaldehydes were cleanly converted to the cinnamic acid derivatives by Knoevenagel condensation with malonic acid followed by spontaneous decarboxylation. Reduction of the nitro groups with sodium dithionate then gave the alkene... 

Song and coworkers compared the squaramide 31 with the sulfonamide 28 and the related C9 thiourea derivative as catalyst for the conjugate addition of 1,3-dicarbonyls to [i-nitroalkenes in brine [89] and the conjugate addition of malonic acid half thioester to various nitro alkenes [90]. In the latter reaction (Scheme 6.41), 31 afforded the best results with respect to enantioselectivity that is, the ee was 93% for 31 but only 63% for thiourea and 23% for the sulfonamide analog. 

Active methylene or methine compounds, to which two EWGs such as carbonyl, alko.xycarbonyl, formyl, cyano, nitro, and sulfonyl groups are attached, react with butadiene smoothly and their acidic hydrogens are displaced with the 2,7-octadienyl group to give mono- and disubstituted compounds[59]. 3-Substituted 1,7-octadienes are obtained as minor products. The reaction is earned out with a /3-keto ester, /9-diketone, malonate, Q-formyl ketones, a-cyano and Q-nitro esters, cya noacetamide, and phenylsulfonylacetate. Di(octadienyl)malonate (61) obtained by this reaction is converted into an... 

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