Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Malononitrile reaction with

When the precursor is derived from malononitrile, reaction with maleimide leads to the expected a-cyano pyrrolidine adduct. However, methyl propiolate gives 3-carbomethoxy pyrrole, probably due to the acidity of hydrogen a- to the cyano group in the intermediate A3-pyrrolinic adduct first formed.171... [Pg.329]

Removal of maleic and fumaric acids from the cmde malononitrile by fractional distillation is impractical because the boiling points differ only slightly. The impurities are therefore converted into high boiling compounds in a conventional reactor by means of a Diels-Alder reaction with a 1,3-diene. The volatile and nonvolatile by-products are finally removed by two vacuum distillations. The by-products are burned. The yield of malononitrile amounts to 66% based on cyanogen chloride or acetonitrile. [Pg.474]

Fluorinated esters may also act as electrophiles in reactions with nonfluori-nated ketones [28] (equation 23) or malononitrile [29] (equation 24). Unfortunately, the yields of -diketones may be modest, but those of p-keto nitnles are excellent (Table 9)... [Pg.628]

The Knoevenagel reaction between o-hydroxyaryl aldehydes and ketones and substituted acetonitriles affords high yields of 3-substituted coumarins in aqueous alkaline media <96H(43)1257>, whilst 4-hydroxycoumarins have been elaborated to pyrano [3,2-c]benzopyran-5-ones by reaction with aromatic aldehydes and malononitiile <96P148>. The imine (10) resulting from the complex reaction of o-hydroxyacetophenone with malononitrile undergoes a 1,5-tautomeric shift in solution <96JCS(P1)1067>. [Pg.296]

Reaction of thienopyrimidinyl isothiocyanates of the type 472 with malononitrile and a base gives thienopyrimi-dopyrimidinethiones 473 however, reaction with acetonitrile gives thienopyrimidotriazinethiones 474 (Scheme 108) <2000PS(165)221>. [Pg.953]

Tetrachlorocyclopropene is another building block for [3]radialenes (Scheme 7). Its reaction with anions of active methylene compounds such as malononitrile... [Pg.939]

Malonic ester syntheses, 30, 7 Malononitrile, 37, 53 Malonyl dichloride, 33, 20 Mandelic acid, 36, 3 Mandelic acid, />-bromo, 35,11 Mannich reaction, with acetone, 37,18 Mercaptoacetaldehyde, diethyl ACETAL, 35, 51... [Pg.51]

Malononitrile, purification of, 48, 3 reaction with sodium nitrite and acetic acid, 48,1... [Pg.77]

Subsequent studies on thioamide pyrans with application of the competitive reactions method contribute to our understanding of the mechanisms of heterocyclizations with cyanothioacetamide 114 (89ZOR1331). 2,6-Diaminothiopyrans 115, on heating in benzene, open their thiopyran ring reversibly forming intermediate 116, which can eliminate cyanothioacetamide 114 or malononitrile 27a with formation of UNs 30 or 117, respectively. The direction of the subsequent reaction with... [Pg.204]

Malononitrile and cyanoacetamide only give aminopyrans. However, in reaction with cyanoacetic ester 27b aminopyran 233 has been isolated from the mother liquor and also side product 234 from the cooled mixture. Mechanistic considerations have been proved by the isolation of a deace-tylated intermediate (95M615). Similar transformations occur in the synthesis of spiropyrans 235 from benzothiazole 236 (97G605) (Scheme 90). [Pg.228]

Knoevenagel adduct 239 of oxohomophthalimide 240 with malononitrile 27a in reactions with CH-acids behaves ambiguously (82CPB1215). Reactions of 239 with acetylacetone, ethyl esters of acetoacetic and ben-zoylacetic acids, as well as methyl pyruvate led to the formation of the desired spiropyrans 241. However, benzoylacetone, dibenzoylmethane, cyanacetamide, and oxindole always gave the same 242. Authors explain this feature in terms of a retro-cleavage of adducts of Michael product 239... [Pg.228]

Spiro cyclohexane-fused 252 were obtained in a similar reaction with 4-alkylcyclohexanes 253 and malononitrile 27a (03RCB1380) (Scheme 97). [Pg.231]

Under the action of phenylhydrazine or 5-amino-3-phenylpyrazole on pyran 59b only benzaldehyde phenylhydrazone 271 is formed, probably, as the result of pyran retro-cleavage (82M53). A similar reaction with malononitrile, leading to pyran 59a, a product of formal displacement of a cyanoacetic moiety, possibly results from a similar cleavage (82M53) (Scheme 108). [Pg.236]

Condensation of ester (44e) with the anion of malononitrile gave the alkene (44g) <91JPR35>. Oxadiazole (43e) and triethyl phosphite gave a methane phosphate which underwent a Wittig reation with aldehydes ArCHO to form alkenes (43f). When the alkyl side chain contained an active methylene group, as in (43g), reaction with arenediazonium salts ArN2X yielded arylhydrazones (43h) <88LA909>. [Pg.276]

The corresponding imides (1.40), called fulgimides, are most readily synthesised by conversion of the fulgide into the succinamic acids by reaction with amines, followed by dehydration. Functionalisation of the anhydride can also be achieved by reaction of the fulgides with malononitrile in the presence of diethylamine and subsequent recyclisation with acetyl chloride to give (1.41) from the corresponding E-fulgide and (1.42) from the Z-isomer. [Pg.22]

Aldehydo nitriles are readily available and can be used to prepare 4-amino-6-unsubstituted pyrimidines carrying one or more substituents in any of the other positions. Equivalents of the formyl group are also often used, for example, a 3-ethoxy-, 3-amino-, or 3-haloacrylonitrile. Most syntheses with /3-keto nitriles are carried out with equivalents thereof Such equivalents are /3-substituted /3-alkoxy-, /3-amino-, or /3-haloacrylonitriles. /3 -Ester nitrile reactions are also well established. Malononitriles and substituted malononitriles react readily with thiourea and N-substituted thioureas in refluxing ethanolic sodium ethoxide to form pyrimidine-4,6-diamines. An example is the reaction of N2-malononitrile 680 with N2-thiourea 681 to give N4- 4,6-diamino-2-(l//)-pyrimidinethione 682 which was then used in the synthesis of Ns-labeled adenine derivatives <2001JOC5463>. [Pg.198]

The 6//-l,3-thiazin-6-iminium hydroperchlorate salts 78-81 give interesting products when treated with nucleophiles <2003H(60)2273>. Hydrolysis of 6-imino-6//-l,3-thiazine hydroperchlorate 78 affords (2Z,4Z)-2-cyano-5-hydroxy-5-phenyM-azapenta-2,4-dienethioamide 82 in excellent yield, while treatment with morpholine gives 2-(morpholinomethylene)malononitrile 83 and thiobenzamide. The 5-(ethoxycarbonyl) -(methylthio)-2-aryl-6/7-l,3-thiazin-6-iminium salts 79 and 80 react with hydroxide or morpholine to afford ethyl 4-(methylthio)-2-aryl-6-thioxo-l,6-dihydropyrimidine-5-carboxylates 84 and 85. In the case of the 4-chloro analogue 80, the (Z)-ethyl 2-(5-(4-chlorophenyl)-37/-l,2,4-dithiazol-3-ylidene)-2-cyanoacetate 87 is also formed for the reaction with sodium hydroxide. The 1,2,4-dithiazoles 86 and 87 can be obtained as the sole product when 79 and 80 are treated with sodium acetate in DMSO. Benzoxazine 88 is isolated when the iminium salt 81 is treated with morpholine or triethylamine. Nitrile 89 is formed as a ( /Z)-mixture when 6-imino-67/-l,3-thiazine hydroperchlorate 79 is reacted with triethylamine and iodomethane in methanol <2003H(60)2273>. [Pg.577]

See other pages where Malononitrile reaction with is mentioned: [Pg.129]    [Pg.40]    [Pg.700]    [Pg.726]    [Pg.196]    [Pg.114]    [Pg.12]    [Pg.120]    [Pg.361]    [Pg.221]    [Pg.106]    [Pg.78]    [Pg.603]    [Pg.463]    [Pg.127]    [Pg.176]    [Pg.149]    [Pg.46]    [Pg.463]   


SEARCH



2- malononitrile, reaction

Malononitrile

Malononitriles

Malononitriles reactions

© 2024 chempedia.info