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Amidation benzamide

Hofmann s amine synthesis can be applied to both aliphatic and aromatic carboxylic acid amides, benzamide, C HsCONH, thus giving aniline, C4H5NH,. [Pg.128]

On the basis of IR evidence it has been proposed84 that alkylamidates are the strongest known hydrogen-bonding carbonyl bases and that the order of hydrogen-bond basicity may be alkylamidates w FLMPA > vinylogous amides benzamidates > amides (Table 8). [Pg.395]

Hofmann degradation of benzamide This reaction produces aniline, which contains one less carbon than the starting material (benzamide). The group (phenyl) attached to the carbonyl carbon in the amide (benzamide) is found joined to nitrogen in the product (aniline). This is an example of molecular rearrangement. [Pg.137]

Aromatic Amides Benzamide (Fig. 2.1) is a typical example. Loss of NH2 from the molecular ion yields a resonance-stabilized benzoyl cation that in turn undergoes cleavage to a phenyl cation. [Pg.31]

The ease of amine substitution is enhanced in 7-acylamino derivatives and also depends on the leaving properties of the amide. Benzamides are more reactive than acetamides and are commonly used in the substitution reactions. [Pg.719]

Reaction with amides. Benzamides and thiobenzamides are converted to a,a-disubstituted benzylamines. Tertiary amides form ketones on reaction with RCeCl even when the reagent is present in large excess, therefore Weinreb amides are not necessary for the ketone synthesis. Enaminones are also attacked at the carbonyl group, and in the cases of a -silylated derivatives the reaction products are 3,y-unsaturated ketones. ... [Pg.263]

The dramatic increases in reaction rates that occur in enzyme-catalyzed reactions can be seen for representative systems in the data given in Table 2.2.4 The hydrolysis of the representative amide benzamide by acid or base yields second-order rate constants that are over six orders of magnitude lower than that measured for ben-zoyl-L-tyrosinamide in the presence of the enzyme a-chymotrypsin. An even more dramatic rate enhancement is observed for the hydrolysis of urea The acid-catalyzed hydrolysis is nearly 13 orders of magnitude slower than hydrolysis with the enzyme urease. The disprotionation of hydrogen peroxide into water and molecular oxygen is enhanced by a factor of 1 million in the presence of catalase. [Pg.21]

Nitriles from primary amides. Benzamide is converted into benzonitrile when heated in THF with triphenylphosphine-carbon tetrachloride (yields up to 83% depending on conditions). The reaction probably proceeds as follows ... [Pg.163]

Hydrolysis of Benzamide. When acid amides are hydrolysed, the corresponding acid and ammonia are formed. Consequently the hydrolysis, which is extremely slow with water alone, is hastened con-... [Pg.120]

B) AMIDES. R-CONHj. Formamide, acetamide, oxamide, urea, benzamide, salicylamide. Thiourea. [Pg.359]

S—Cg is perpendicular to the amide plane of the / -lactam and therefore weakened. The S—bond, on the other hand, is not affected by electronic interactions with the benzamide plane. It was now thought, that a bridging of the thiazolidine moiety would bring the —S bond into a more orthogonal position with respect to the amide plane of the new lactam and make this bond more fragile. The tricyclic thiazolidine was synthesized as described above and fulfilled the predictions (J.E. Baldwin, 1978). [Pg.315]

Aromatic thioamides can be prepared as described in the literature by different ways, either by S -> O exchange between the corresponding benzamides and phosphorus pentasulfide in pyridine solution in the presence of triethylamine (65, 646) as strong base, or by action of H2S on the appropriate nitrile with pyridine and triethylamine solvents using the method of Fairfull et al. (34, 374, 503). In this reaction, thioacetamide in acidic medium can also be used as a H2S generator with dimethylform-amide as the solvent (485). [Pg.171]

Polymerization Solvent. Sulfolane can be used alone or in combination with a cosolvent as a polymerization solvent for polyureas, polysulfones, polysUoxanes, polyether polyols, polybenzimidazoles, polyphenylene ethers, poly(l,4-benzamide) (poly(imino-l,4-phenylenecarbonyl)), sUylated poly(amides), poly(arylene ether ketones), polythioamides, and poly(vinylnaphthalene/fumaronitrile) initiated by laser (134—144). Advantages of using sulfolane as a polymerization solvent include increased polymerization rate, ease of polymer purification, better solubilizing characteristics, and improved thermal stabUity. The increased polymerization rate has been attributed not only to an increase in the reaction temperature because of the higher boiling point of sulfolane, but also to a decrease in the activation energy of polymerization as a result of the contribution from the sulfonic group of the solvent. [Pg.70]

Reaction 12, the acid-catalyzed hydrolysis of substituted benzamides, has p = — 0.22, so the reaction is modestly facilitated by electron-donating groups. This suggests that protonation of the amide is kinetically important ... [Pg.330]

In cases where decarboxylation is anticipated, the quinazolinone could be obtained by heating ammonium o-formamidobenzoate or o-forra ami do benz amide for several hours. This ring closure could be effected more conveniently by boiling the o-formamidobenzamide with 3% aqueous sodium hydroxide for a few minutes, o-Amino-benzamides have also been converted to quinazolinones by refluxing with ethyl orthoformate alone or preferably in the presence of acetic anhydride. ... [Pg.292]

Benzamide known as benti romide, is a chymotrypsin substrate of value as a diagnostic acid for assessment of pancreatic function. It is synthesized by amide formation between... [Pg.60]

Except for simple aromatic amides such as benzamide and acetanilide, derivatization is recommended. The most common derivatives used in this laboratory are TMS, acetate, and /V-dimeth-ylaminomethylene (for primary amides). [Pg.43]

These reactions involve a diazonium ion (see 12-47) and are much faster than ordinary hydrolysis for benzamide the nitrous acid reaction took place 2.5 x lo times faster than ordinary hydrolysis. Another procedure for difficult cases involves treatment with aqueous sodium peroxide. In still another method, the amide is treated with water and f-BuOK at room temperature. " The strong base removes the proton from 107, thus preventing the reaction marked k j. A kinetic study has been done on the alkaline hydrolyses of A-trifluoroacetyl aniline derivatives. Amide hydrolysis can also be catalyzed by nucleophiles (see p. 427). [Pg.475]

A novel variation of this reaction uses nitrogen gas as the nitrogen source in the amide. The reaction of benzoyl chloride with TiCl4/Li.Me3SiCl/CsF and N2, gave a 77% yield of benzamide. ... [Pg.507]

Amides can also be deacylated by partial reduction. If the reduction proceeds only to the carbinolamine stage, hydrolysis can liberate the deprotected amine. Trichloroac-etamides are readily cleaved by sodium borohydride in alcohols by this mechanism.237 Benzamides, and probably other simple amides, can be removed by careful partial reduction with diisobutylaluminum hydride (see Section 5.3.1.1).238... [Pg.270]

Diethyl ether, methyl n-propyl ether, diethylamine, N-methyl-1 -propanamine, acetone, allyl alcohol, dimethylformamide, propanamide, 2-methylpropan-amide, 2,2-dimethylpropanamide, benzamide, dichloromethane, toluene, ethyl N-acetyl-glycinate, -alaninate, -methioninate, and -aspartate, ethyl acetate, tetrahydrofuran... [Pg.33]

In contrast to the reaction of benzamide and other carboxylic acid amides with lead tetraacetate, which has been said to proceed via an acyl nitrene intermediate 46>, methanesulphonamide and 2-biphenylsulphon-amide are completely inert towards this reagent 42>. [Pg.20]

Amides and sulfonamides undergo intramolecular chemistry to form aryl amides and aryl sulfonamides (Equations (17)—(19)) in the presence of palladium catalysts ligated by arylphos-phines.35,89 Initially, complexes of P(furyl)3 and P(o-tol)3 were most effective catalysts, but complexes of Hayashi s MOP and van Leeuwen s DPEphos and xantphos have lately been shown to be more active.90 In the presence of catalysts containing one of these ligand systems, five-, six-, and seven-membered rings were formed from halogenated benzamides or from substrates containing an acetamide, an A-carbobenzyloxy, or a t-butylcarbamate substituent tethered to the aryl halide (Equations (18) and (19)) ... [Pg.379]

Fig. 5 Excess acidity plots according to equation (17) for three amides in aqueous perchloric acid at 45°C (upper lines) and 15°C (lower lines). Open circles, 4-methoxy-benzamide closed circles, 3,4,5-trimethoxybenzamide open triangles, 3-nitrobenzamide. Data from ref. 64 numbers to the right of the dashed lines are log/values. Fig. 5 Excess acidity plots according to equation (17) for three amides in aqueous perchloric acid at 45°C (upper lines) and 15°C (lower lines). Open circles, 4-methoxy-benzamide closed circles, 3,4,5-trimethoxybenzamide open triangles, 3-nitrobenzamide. Data from ref. 64 numbers to the right of the dashed lines are log/values.
See other pages where Amidation benzamide is mentioned: [Pg.383]    [Pg.903]    [Pg.822]    [Pg.883]    [Pg.3599]    [Pg.190]    [Pg.142]    [Pg.77]    [Pg.851]    [Pg.383]    [Pg.903]    [Pg.822]    [Pg.883]    [Pg.3599]    [Pg.190]    [Pg.142]    [Pg.77]    [Pg.851]    [Pg.55]    [Pg.248]    [Pg.198]    [Pg.235]    [Pg.12]    [Pg.46]    [Pg.161]    [Pg.54]    [Pg.125]    [Pg.501]    [Pg.543]    [Pg.52]   
See also in sourсe #XX -- [ Pg.38 ]



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