Condensation Knoevenagel Condensation

Previous sections have shown that catalysis by solid acids has received much attention due to its importance in petroleum refining and petrochemical processes. Conversely, relatively few studies have focused on catalysis by bases, even if acid and base are paired concepts. Base catalysts, however, play a decisive role in several reactions essential for fine-chemical syntheses [248-251]. Solid-base catalysts have many advantages over liquid bases. Examples of successfijl reactions include isomerization, aldol condensation, Knoevenagel condensation, Michael condensation, oxidation and Si—C bond formation. Various reviews have discussed catalysis by solid bases [248-255]. 

The use of these materials in a range of reactions [isomerization of alkenes and alkynes, C—C bond formation, aldol condensation, Knoevenagel condensation, nitroaldol reactions, Michael addition, conjugate addition of alcohols, nucleophilic addition of phenylacetylene, nucleophilic ring opening of epoxides, oxidation reactions, Si—C bond formation, Pudovik reaction (P—C bond formation) and synthesis ofheterocycles] have been discussed in detail by Ono [248], as well as in the other cited reviews. We will thus discuss here only selected examples. 

Reconstructed Hydrotalcite. When calcined hydrotalcite (Mg0-Al203) is rehydrated in water or in flowing nitrogen saturated with water, hydrotalcite structure is reconstructed. This phenomenon is called memory effect. The reconstructed materials contain OH in the interlayers. The reconstructed materials are very useful catalysts for aldol condensation, Knoevenagel condensation, Michel addition, and cyanoethylation of alcohols (22-24). The OH ions in the interlayer are believed to be the active sites for these reactions. 

Polymeric amines can be proton acceptors, acyl transfer agents, or ligands for metal ions. The 2- and 4-isomers of poly(vinylpyridine) (11) and (12) and the weakly basic ion exchange resins, p-dimethylaminomethylated PS (2) and poly(2-dimethylaminoethyl acrylate), are commercial. The ion exchange resins are catalysts for aldol condensations, Knoevenagel condensations, Perkin reactions, cyanohydrin formation and redistributions of chlorosilanes. " The poly(vinylpyridine)s have been used in stoichiometric amounts for preparation of esters from acid chlorides and alcohols, and for preparation of trimethylsilyl ethers and trimethylsilylamines from chlorotrimethylsilane and alcohols or amines. Polymer-suppored DBU (l,8-diazabicyclo[5.4.0]undec-7-ene) (52) in stoichiometric amounts promotes dehydrohalogenation of alkyl bromides and esterification of carboxylic acids with alkyl halides. The protonated tertiary amine resins are converted to free base form by treatment with aqueous sodium hydroxide. 

Aldol Condensation Claisen Condensation Claisen-Schmidt Condensation Cyclocondensation Friedlander Condensation Isay Condensation Knoevenagel Condensation Pechmann Reaction Ugi Condensation... 

The term Knoevenagel Condensation was originally applied to the base-catalysed condensation of the carbonyl ( CO) group of aldehydes and ketones with the reactive methylene group of malonic acid, with loss of w ater ... 

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. 

In a sophisticated variation of the Knoevenagel condensation ("Panizzi ) methyl 3,3-dimethoxypropanoate (from ketene and dimethoxymethenium tetrafluoroborate D.J. Crosby, 1962) is used as a d -reagent. Because only one carbonyl group activates the methylene group, a strong base with no nucleophilic properties (p. 10) has to be used. A sodium-sand mixture, which presumably reacts to form silicate anions in the heat, was chosen... 

The only acid-resistant protective group for carbonyl functions is the dicyanomethy-lene group formed by Knoevenagel condensation with malononitrile. Friedel-Crafts acylation conditions, treatment with hot mineral acids, and chlorination with sulfuryl chloride do not affect this group. They have, however, to be cleaved by rather drastic treatment with concentrated alkaline solutions (J.B. Basttis, 1963 H. Fischer, 1932 R.B. Woodward, 1960, 1961). 

The cyanoacryhc esters are prepared via the Knoevenagel condensation reaction (5), in which the corresponding alkyl cyanoacetate reacts with formaldehyde in the presence of a basic catalyst to form a low molecular weight polymer. The polymer slurry is acidified and the water is removed. Subsequendy, the polymer is cracked and redistilled at a high temperature onto a suitable stabilizer combination to prevent premature repolymerization. Strong protonic or Lewis acids are normally used in combination with small amounts of a free-radical stabilizer. 

Uses. Malonic acid is used instead of the less expensive malonates for the introduction of a CH—COOH group under mild conditions by Knoevenagel condensation and subsequent decarboxylation. The synthesis of 3,4,5-trimethoxycinnaniic acid, the key intermediate for the coronary vasohdator Cinepa2et maleate [50679-07-7] (5) involves such a pathway (13). 

Knoevenagel condensation of malonic acid with heptaldehyde [111-71-7] followed by ring closure, gives the fragrance y-nonanoic lactone [104-61-0] (6) (14). Beside organic synthesis, malonic acid can also be used as electrolyte additive for anodization of aluminum [7429-90-5] (15), or as additive in adhesive compositions (16). 

Reactions. The chemical properties of cyanoacetates ate quite similar to those of the malonates. The carbonyl activity of the ester function is increased by the cyano group s tendency to withdraw electrons. Therefore, amidation with ammonia [7664-41-7] to cyanoacetamide [107-91-5] (55) or with urea to cyanoacetylurea [448-98-2] (56) proceeds very easily. An interesting reaction of cyanoacetic acid is the Knoevenagel condensation with aldehydes followed by decarboxylation which leads to substituted acrylonitriles (57) such as (29), or with ketones followed by decarboxylation with a shift of the double bond to give P,y-unsaturated nitriles (58) such as (30) when cyclohexanone [108-94-1] is used. 

Otherwise, the main reactions at the methylene group are the dialkylation with alkyl haUdes (77), the acetylation with acetyl chloride which yields acetylma1 ononitrile [1187-11-7] (78), the Knoevenagel condensation, as well as the condensation with triethyl orthoformate, gives... 

Knoevenagel condensation, 3, 674 2H-Chromene, 4-alkyl-prototropy, 3, 642 2H-Chromene, 3-bromo-synthesis, 3, 668... 

Chromone-2-carbaldehyde, 3-methyl-synthesis, 3, 709 Chromonecarbaldehydes Knoevenagel condensation, 3, 711 Chromone-3-carbaldehydes mass spectra, 3, 615 oxidation, 3, 709 reactions, 3, 712 Schiff bases, 3, 712 synthesis, 3, 821 Chromone-2-carbonyl chloride Grignard reaction, 3, 711 Chromonecarboxamide, N-tetrazolyl-antiallergic activity, 3, 707 Chromone-2-carboxylic acid, 3-chloro-ethyl ester... 

Trimethylsilyloxy-p-nitrostyrene was the target of Knoevenagel condensation of 2-trimethyl-siloxybenzaldehyde with nitromethane in the presence of -butylamine as base. NMR spectra 20 were obtained from the product of the reaction. What has happened ... 

The first step in the Gewald reaction is a Knoevenagel condensation of an activated nitrile with a ketone or aldehyde to produce an acrylonitrile 8, which is then thiolated at the methylene position with elemental sulfur. The sulfurated compound 9 initially decays... 

The initial step of the Hantzsch synthesis is likely to be a Knoevenagel condensation reaction of aldehyde 2 and /3-ketoester 1 to give the a ,/3-unsaturated ketoester 6 ... 

Many dihydropyridines that are of therapeutic interest are unsymmetrically substituted at C-3 and C-5. The synthesis of such compounds is possible from separately prepared Knoevenagel condensation products 6, as is outlined in the following scheme for nitrendipine 8, which is used in the medical treatment of high blood pressure." ... 

If a Knoevenagel condensation with malonic acid is conducted in refluxing pyridine, a subsequent decarboxylation often occurs. It has been shown that the decarboxylation of a ,/3-unsaturated diesters 3 under these conditions is slow the decarboxylation of the corresponding free dicarboxylic acid is formulated as follows ... 

The following example is a sequence consisting of a Knoevenagel condensation and a subsequent hetero-Diels-Alder reaction. An aromatic... 

An early application of this reaction to the preparation of barbiturates starts by the condensation of the ketone, I21, with ethyl cyanoacetate by Knoevenagel condensation. Alkylation of the product (122) with ethyl bromide by means of sodium ethoxide affords 123. Condensation of this intermediate with guanidine in the presence of sodium ethoxide gives the diimino analog of a barbiturate (124). Hydrolysis affords vinbarbital (111). > ... 

The observation that a carboxyl derivative of a pyrimidinoquinol ine shows mediator release inhibiting activity is in consonance with the earlier generalization. Knoevenagel condensation of nitroaldehyde 138 with cyano-acetamide gives the product 139. Treatment with iron in... 

Davis and co-workers have carried out the first examples of the Knoevenagel condensation and Robinson annulation reactions [61] in the ionic liquid [HMIM][PFg] (HMIM = l-hexyl-3-methylimidazolium) (Scheme 5.1-33). The Knoevenagel condensation involved the treatment of propane-1,3-dinitrile with a base (glycine) to generate an anion. This anion added to benzaldehyde and, after loss of a water molecule, gave l,l-dicyano-2-phenylethene. The product was separated from the ionic liquid by extraction with toluene. 

Scheme 5.1-33 The Knoevenagel condensation and the Robinson annulation in [HMIM][PFg],...

It would be preferable to incorporate both fluorescent and electron transport properties in the same material so as to dispense entirely with the need for electron-transport layers in LEDs. Raising the affinity of the polymer facilitates the use of metal electrodes other than calcium, thus avoiding the need to encapsulate the cathode. It has been shown computationally [76] that the presence of a cyano substituent on the aromatic ring or on the vinylene portion of PPV lowers both the HOMO and LUMO of the material. The barrier for electron injection in the material is lowered considerably as a result. However, the Wessling route is incompatible with strongly electron-withdrawing substituents, and an alternative synthetic route to this class of materials must be employed. The Knoevenagel condensation... 

The cyano-substituted five-ring oligomers were formed in good yields in a Knoe-venagel condensation between an aldehyde and a cyanomethyl-substituted compound, according to a procedure previously reported by Greenham el at. [6. The Knoevenagel condensation needs careful control of reaction conditions in order to... 

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