Isocyanates carboxamidation reactions

Other carboxamidation reactions involving aromatic compounds involve the generation of isocyanates from carbonyl azides. For example, thermolysis of certain carbonyl azides substituted in the a-position by vinylidene radicals, such as 220, or aryl rings undergo cyclization to the pyridones 221 or condensed pyridones . 

Chlorosulfonyl isocyanate has been used to introduce 3-carboxamide groups. The initial product, an A -chlorosulfonylcarboxamide, is treated with tri-n-butylstannanc to form the primary carboxamide[15], 3-Cyano groups can also be introduced using chlorosulfonyl isocyanate. The intermediate N-chlorosulfonylindole-3-carboxamide is converted to 3-cyanoindole on reaction with triethylamine[16] or DMF[17],... 

Specialty Isocyanates. Acyl isocyanates, extensively used in synthetic appHcations, caimot be direcdy synthesized from amides and phosgene. Reactions of acid haUdes with cyanates have been suggested. However, the dominant commercial process utilizes the reaction of carboxamides with oxalyl chloride [79-37-8]. CycHc intermediates have been observed in these reactions which generally give a high yield of the desired products (86). 

The reaction of the enamines of cyclic ketones with alkyl isocyanates, acyl isocyanates, phenyl isothiocyanates, and acyl isothiocyanates has also been reported 112). The products are the corresponding carboxamides. The products from the isothiocyanates have been utilized as intermediates in the preparation of various heterocyclic compounds 113). 

The reaction of CDI with primary phosphines was expected to lead first to an azolide ImCOPHR, analogous to imidazole-N-carboxamide as the reaction product of primary amines and CDI. In fact, reaction of phenylphosphine with CDI leads directly to imidazole, carbonmonoxide, and tetraphenylcyclotetraphosphine (THF, reflux, 5h). In analogy to the dissociation of imidazole-AT-carboxamide into isocyanates and imidazole, this can be explained by the assumption that the first-formed ImCOPHC6H5 dissociates into an isocyanate analogue, C6H5P=C=0, which is unstable and decomposes into carbon monoxide and phenylphosphene (C6H5P) which tetramerizes. However, the intermediate formation of phenylphosphene has not yet been definitely proved. 

The availability of amino-substituted furazans, both by direct synthesis from aminogly-oximes and via Hofmann degradation of the corresponding carboxamides, allows urea, thiourea, imino and acylamido derivatives, for example, to be prepared by reaction with isocyanates, isothiocyanates, aldehydes and acyl halides, respectively (73JPR791, 77JCS(P1)1616). Alkoxy and acyloxy derivatives are likewise formed from hydroxyfurazans (79JHC689). 

An enantioselective Friedel-Crafts alkylation of pyrroles with /V-acylimincs has been reported <070L4065>. The reactions were run in the presence of chiral phosphoric acids. A novel C-H bond activation procedure was developed for the preparation of heteroarylamides including pyrrole-3-carboxamides <07CL872>. The reactions involved imine-substituted pyrroles, isocyanate electrophiles, and a rhenium catalyst. 

Mild thermal rearrangement of the carbonyl azides 408 in 1-methylpyrrole gave l-methyl-A -(2-thiophene)-, l-methyl-iV-(2-selenophene)- and l-methyl-iV-(2-furano)-l//-pyrrole-2-carboxamides 409 in good yields, presumably involving the intermediacy of the corresponding isocyanate (Equation 97) <2000ARK58>. In this case, the successful outcome of such thermal reactions is ascribable to the pronounced acidic property of the pyrrole 2-proton. 

Imidazoles can also be made by heating 4-tosyloxazolines in saturated methanolic ammonia or monoalkylamines. These reactions proceed through intermolecular condensation of a-aminoketones and amidines and intramolecular cyclization of a-ainidinoketones, respectively [49] (see Section 4.2). When A -unsubstituted 4-oxazolin-2-ones are added to isocyanates, the 2-oxo-4-oxazoline-3-carboxamide products cleave under the influence of strong acids and heat. Subsequent ring closure gives 4-imidazolin-... 

The Hofmann rearrangement can also be used to convert a carboxylic acid derivative to an isocyanate. A carboxamide is treated with Br2 and aqueous base to give an isocyanate, which is usually hydrolyzed under the reaction conditions to give an amine with one fewer C atom than the starting material. The reaction proceeds by deprotonation of the amide and /V-bromination, then a second deprotonation and rearrangement. The amide N is more reactive than the amide O in the bromination step because N is deprotonated under the reaction conditions. 

Ureas and Carbonates. Reagent (1) may be used as a direct replacement for the highly toxic Phosgene in reactions with alcohols and amines. Reaction of (1) with two equivalents of a primary aliphatic or aromatic amine at room temperature rapidly yields a symmetrical urea (eq 9). If only one equivalent of a primary amine is added to (1), then the imidazole-Al-carboxamide (4) is formed (eq 10). These compounds can dissociate into isocyanates and imidazole, even at room temperature, and distillation from the reaction mixture provides a useful synthesis of isocyanates (eq 10).7 Secondary amines react only at one side of (1) at room temperature, again giving the imidazole-Al-carboxamide of type... 

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