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Acyl cyanide

Cyanamides, alcoholysis, 648 hydrolysis, 647, 680 Cyanides, acylation, 348 addition, of alcohols to, 634 of ammonia or amines to, 635 of olefins to, 571 alcoholysis, 485, 542 alkylation, 599 amination, 636 carbethoxylation, 489 condensation to /3-iminonitriles, 730 hydrolysis, to acids, 412 to amides, 570 preparation, 590... [Pg.439]

Pyndo 3,4-6]pyrazine, as well as its 2-phenyl and 2,3-diphenyl derivative, give mono-Reis-sert compounds and analogs by treatment with an equivalent amount each of the heterocyclic base, trimethylsilyl cyanide, acyl halide, or ethyl chloroformate, and a catalytic amount of aluminum trichloride.113... [Pg.266]

The major classes of carbonyl compounds include aldehydes, ketones, carboxamides, esters, carboxylic acids and anhydrides, and carbonyl halides (acyl halides). These groups differ in the identity of the substituent X on the carbonyl group. At this point we concentrate on these examples, but a number of other carbonyl derivatives have important roles in synthetic and/or biological reactions. These other compounds include acyl cyanides, acyl azides, A-acylimidazoles, 0-aryl esters, and thioesters. The carbonyl compounds are arranged below in the order of the increasing reactivity toward nucleophilic addition. [Pg.319]

Allylalion of the alkoxymalonitrile 231 followed by hydrolysis affords acyl cyanide, which is converted into the amide 232. Hence the reagent 231 can be used as an acyl anion equivalent[144]. Methoxy(phenylthio)acetonitrile is allylated with allylic carbonates or vinyloxiranes. After allylation. they are converted into esters or lactones. The intramolecular version using 233 has been applied to the synthesis of the macrolide 234[37]. The /i,7-unsaturated nitrile 235 is prepared by the reaction of allylic carbonate with trimethylsilyl cyanide[145]. [Pg.321]

Alkali salts of primary nitroparaffins, but not of secondary nitroparaffins, react with acyl cyanides to yield a-nitroketones by C-acylation (27). [Pg.99]

Qu tern iy S Its. The ring nitrogen of quinoline reacts with a wide variety of alkylating and acylating agents to produce useful intermediates like A/-benzoylquinolinium chloride [4903-36-0] (8). The quinoline 1,2-adducts, eg, A/-benzyl-2-cyano-l,2-dihydroquinoline [13721 -17-0] (9), or Reissert compounds (28), formed with potassium cyanide can produce 2-carboxyquinoline [93-10-7] (10) or 2-cyanoquinoline [11436-43-7] (11). [Pg.390]

Although a C—CN bond is normally strong, one or two cyano groups in TCNE can be replaced easily, about as easily as the one in an acyl cyanide. The replacing group can be hydroxyl, alkoxyl, amino, or a nucleophilic aryl group. Thus hydrolysis of TCNE under neutral or mildly acidic conditions leads to tricyanoethenol [27062-39-17, a strong acid isolated only in the form of salts (18). [Pg.404]

A very useful procedure for introducing a cyano group into a pyridazine ring is the Reissert-type reaction of the A/-oxide with cyanide ion in the presence of an acyl halide or dimethyl sulfate. The cyano group is introduced into the a-position with respect to the A-oxide function of the starting compound. The yields are, however, generally poor. In this way, 6-cyanopyridazines (111) can be obtained from the corresponding pyridazine 1-oxides (Scheme 33). [Pg.24]

Lehn s approach is slightly more complex than that illustrated above in that the diol is chloromethylated and then treated with cyanide. Hydrolysis then affords the diacid which may be carried through as shown. It should also be noted that once the bis-acyl halide is in hand, it may be treated directly with an open-chained amine to yield a lipophilic diazacrown, after reduction ... [Pg.351]

The reaction of tnfluoromethyl-substituted A -acyl umnes toward nucleophiles in many aspects parallels that of the parent polyfluoro ketones Heteronucleophiles and carbon nucleophiles, such as enarmnes [37, 38], enol ethers [38, 39, 40], hydrogen cyanide [34], tnmethylsilylcarbomlnle [2,47], alkynes [42], electron-nch heterocycles [43], 1,3-dicarbonyl compounds [44], organolithium compounds [45, 46, 47, 48], and Gngnard compounds [49,50], readily undergo hydroxyalkylation with hexafluoroace-tone and amidoalkylation with acyl imines denved from hexafluoroacetone... [Pg.842]

The thenyl cyanides are of great importance for the preparation of thiophene derivatives. Because of the acidifying effects of both the thienyl and of the cyano groups, carbanions are easily obtained through the reaction with sodamide or sodium ethoxide, which can be alkylated with halides, carbethoxylated with ethyl carbonate, or acylated by Claisen condensation with ethyl... [Pg.93]

The preparation of a formyl-substituted aromatic derivative 3 from an aromatic substrate 1 by reaction with hydrogen cyanide and gaseous hydrogen chloride in the presence of a catalyst is called the Gattermann synthesis This reaction can be viewed as a special variant of the Friedel-Crafts acylation reaction. [Pg.133]

Synthesis of the remaining half of the molecule starts with the formation of the monomethyl ether (9) from orcinol (8). The carbon atom that is to serve as the bridge is introduced as an aldehyde by formylation with zinc cyanide and hydrochloric acid (10). The phenol is then protected as the acetate. Successive oxidation and treatment with thionyl chloride affords the protected acid chloride (11). Acylation of the free phenol group in 7 by means of 11 affords the ester, 12. The ester is then rearranged by an ortho-Fries reaction (catalyzed by either titanium... [Pg.314]

Besides acylation and alkylation reactions, typical carbonyl reactions, such as reduction and substitution, are known. Thus, the oxo group in position 3 of 8 is attacked by sodium cyanide, resulting in the cyanohydrin in 55% yield. Subsequent dehydration with p-toluene-sulfonic acid and acetylation in position 5 gives 1-benzothiepin 12.90... [Pg.94]

Mass spectral data on l-(arylsulfonyl)-l//-azepines have been amassed,73 and the fragmentation patterns of several 1-acyl-1//-azepines elucidated.61 For the latter systems, the base peaks correspond to the azatropylium cation (m/z 92). Loss of hydrogen cyanide to yield the cyclo-pentadienyl cation (m/z 65) has also been noted. [Pg.114]

The nucleophilic acylation of 2-phenylpropanal or 3-phenyI-2-butanone with cyano(trimethyl-silyloxy)phenylmethyllithium proceeds with high Cram selectivity6. The primary addition product 7, after silyl migration and loss of lithium cyanide, gives the a-silyloxy ketones 86. [Pg.199]

The lithium enolate 2a (M = Li ) prepared from the iron propanoyl complex 1 reacts with symmetrical ketones to produce the diastercomers 3 and 4 with moderate selectivity for diastereomer 3. The yields of the aldol adducts are poor deprotonation of the substrate ketone is reported to be the dominant reaction pathway45. However, transmetalation of the lithium enolate 2a by treatment with one equivalent of copper cyanide at —40 C generates the copper enolate 2b (M = Cu ) which reacts with symmetrical ketones at — 78 °C to selectively produce diastereomer 3 in good yield. Diastereomeric ratios in excess of 92 8 are reported with efficient stereoselection requiring the addition of exactly one equivalent of copper cyanide at the transmetalation step45. Small amounts of triphcnylphosphane, a common trace impurity remaining from the preparation of these iron-acyl complexes, appear to suppress formation of the copper enolate. Thus, the starting iron complex must be carefully purified. [Pg.541]

Reissert compounds (116) are prepared from the acyl halide by treatment with quinoline and cyanide ion. Treatment of 116 with sulfuric acid gives the... [Pg.533]


See other pages where Acyl cyanide is mentioned: [Pg.589]    [Pg.589]    [Pg.292]    [Pg.1922]    [Pg.589]    [Pg.589]    [Pg.589]    [Pg.589]    [Pg.292]    [Pg.1922]    [Pg.589]    [Pg.589]    [Pg.133]    [Pg.788]    [Pg.383]    [Pg.322]    [Pg.105]    [Pg.180]    [Pg.314]    [Pg.774]    [Pg.791]    [Pg.346]    [Pg.187]    [Pg.259]    [Pg.46]   
See also in sourсe #XX -- [ Pg.479 , Pg.545 , Pg.924 ]




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6-Keto esters, acylation cyanides

Acyl cyanides Claisen condensation

Acyl cyanides decarbonylation

Acyl cyanides palladium-catalyzed

Acyl cyanides, oxetanes

Acyl derivatives cyanides

Allylation of acyl cyanide

Aromatic acyl cyanides

Cinnamic acid acyl cyanides

Cyanides, acyl formation

Cyanides, acyl formation halides

Cyanides, acyl formation mechanism

Nitriles from aromatic acyl cyanides

Silane, propargyltrimethylcondensation with acyl cyanide

Synthesis acyl cyanides

Synthesis of Acyl Cyanides

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