Isocyanates, acyl, aryl, reaction with

If the ring nitrogen atom forms a secondary amine, its reaction with aryl isocyanate can yield substituted ureas and this transformation is strongly related to a N-acylation. In this respect, a publication by Saczewski and Nasal <1995APH237> should be mentioned here these authors described the transformation of 119 with a number of arylisocyanates to the urea 120 in medium to high yields (49-82%) (Scheme 17). 

Alkyl and glycosyl isocyanates and isothiocyanates are produced in good yield under phase-transfer catalytic conditions using either conventional soluble catalysts or polymer-supported catalysts [32, 33]. Acyl isothiocyanates are obtained under similar conditions [34]. A-Aryl phosphoramidates are converted via their reaction with carbon disulphide under basic conditions into the corresponding aryl isothiocyanates, when the reaction is catalysed by tetra-n-butylammonium bromide [35]. 

Lithiation of compound 560 with s-BuLi-TMEDA in THF at —78 °C following an inverse addition protocol provided the anion 561. It reacts with primary alkyl iodides and triflates, silyl chlorides, diphenyl disulfide, epoxides, aldehydes, ketones, imines, acyl chlorides, isocyanates and sulfonyl fluorides to yield the expected compounds 562 (Scheme 152). The transmetallation of compound 561 with ZnBr2 allowed the palladium-catalyzed cross-coupling reaction with aryl and vinyl bromides837. When the reaction was quenched with 1,2-dibromotetrafluoroethane, the corresponding bromide 562 (X = Br) is obtained838. 

Acyl isocyanates are more reactive than alkyl or aryl isocyanates. However, the presence of an additional rr-bond conjugated to the C>i-N bond of the isocyanate opens the possibility for [4 + 2] cycloadditions to compete with normal [2 + 2] additions. Reactions with alkyl and aryl substituted alkenes are rather slow. Propene, tranj-2-butene, styrene and conjugated dienes give only 3-lactams, albeit in moderate yields (Scheme 25). The strained double bond of norbomene, a reactive dienophile, adds across the conjugated 4iT-system of trichloroacetyl isocyanate (equation 51). 

Amino groups can be acylated,296,323,348 reaction with sulfonyl chlorides affords the sulfonylamino-substituted products while aryl isocyanates yield carbamic acid derivatives.296, 348,349... 

An amino group can also be acylated <84JHC697, 86JHC935) it reacts with sulfonyl chlorides and aryl isocyanates <86JHC935>, and also with nitrous acid to give, via the diazonium salt (281), either the triazinone by reaction with water or the chloro-triazine by reaction with chloride ions (Scheme 50). Nitrosation of 3-amino-1,2,4-triazine 2-oxides (282) and subsequent thermolysis of the diazonium tetrafluoroborate salts (283) afforded 3-fluoro-1,2,4-triazine 2-oxides (284) (Scheme 51). In one instance the diazonium tetrafluoroborate was isolated <85H(23)1969>. 

Alkyl isocyanates, like n-butyl isocyanate, do not react with different alkyl azides and aryl azides respectively. In contrast, aryl isocyanates 131 react with alkyl azides 130 like n-butyl azide or cyclohexyl azide to yield 1-alkyl-4-aryl-A -tetrazoline-5-ones 132, however, aryl isocyanates do not react with aryl azides. The reactions take place within some hours and up to several days at elevated temperatures, ranging from 55 to 130 °C, and are performed in benzene or without solvent (Scheme 29A). The addition of aryl azides to acyl isocyanates, such as benzoyl isocyanate or carboalkoxy isocyanates like chloroacetyl isocyanate and trichloroacetyl isocyanate, was unsuccessfully attempted at different reaction conditions [107]. 

In summary, alkyl azides react with aryl isocyanates, acyl isocyanates, carboalkoxy isocyanates and sulfonyl isocyanates to afford the corresponding 1,4-disubstituted A -tetrazohne-5-ones. In contrast, the cycloaddition reaction of aryl azides to isocyanates is hmited to sulfonyl isocyanates, leading to l-aryl-4-sulfonyl-A -tetrazohne-5-ones. 

The main applications of oxalyl chloride, as described in Chapter 4, are the formation of aryl isocyanates and chloroformates (by reactions with amines and hydroxylic substrates, respectively), and the formation of acyl chlorides from carboxylic acids under very mild conditions. Oxalyl chloride reacts with amides to give acyl isocyanates, and it is used with dimethyl sulfoxide as a mild reagent for the oxidation of alcohols (Swern-type oxidation). It is also used with N,N-dimethylformamide as a mild reagent for chlorination and formylation. Oxalyl chloride is widely used in commercial formulations of speciality polymers, antioxidants, photographic chemicals, X-ray contrasting agents, and chemiluminescent materials. Other physical properties are presented in Chapter 3. 

The A-acylation of thioamides with aryl isocyanates has been shown to proceed smoothly in the presence of cuprous oxide to give W-thioacylureas. The reaction of a-cyanothioacetamide with acetyl chloride gives the product of C-acylation MeC(0)CH(CN)C(S)NH2. The same type of reaction occurs between a-arylsulphonylthioacetamide and an aryl isocyanate in the presence of base to yield AriNHC(0)CH(Ar S02)C(S)NH2. ... 

N-Substituted amides can be prepared by direct attack of isocyanates on aromatic rings.The R group may be alkyl or aryl, but if the latter, dimers and trimers are also obtained. Isothiocyanates similarly give thioamides. The reaction has been carried out intramolecularly both with aralkyl isothiocyanates and acyl isothiocyanates.In the latter case, the product is easily hydrolyzable to a dicarboxylic acid this is a way of putting a carboxyl group on a ring ortho to one already there (34 is... 

Cyclocarbonylation of o-iodophenols 503 with isocyanates or carbodiimides and carbon monoxide in the presence of a catalytic amount of a palladium catalyst (tris(dibenzylideneacetone)dipalladium(O) Pd2(DBA)3) and l,4-bis(di-phenylphosphino)butane (dppb) resulted in formation of l,3-benzoxazine-2,4-diones 504 or 2-imino-l,3-benzoxazin-4-ones 505 (Scheme 94). The product yields were dependent on the nature of the substrate, the catalyst, the solvent, the base, and the phosphine ligand. The reactions of o-iodophenols with unsymmetrical carbodiimides bearing an alkyl and an aryl substituent afforded 2-alkylimino-3-aryl-l,3-benzoxazin-4-ones 505 in a completely regioselective manner <1999JOC9194>. On the palladium-catalyzed cyclocarbonylation of o-iodoanilines with acyl chlorides and carbon monoxide, 2-substituted-4f/-3,l-benzoxazin-4-ones were obtained <19990L1619>. 

Silyl-substituted diazoketones 29 cycloadd with aryl isocyanates to form 1,2,3-triazoles 194 (252) (Scheme 8.44). This reaction, which resembles the formation of 5-hydroxy-l,2,3-triazoles 190 in Scheme 8.43, has no analogy with other diazocarbonyl compounds. The beneficial effect of the silyl group in 29 can be seen from the fact that related diazomethyl-ketones do not react with phenyl isocyanate at 70 °C (252). Although the exact mechanistic details are unknown, one can speculate that the 2-siloxy-1-diazo-1-alkene isomer 30 [rather than 29 (see Section 8.1)] is involved in the cycloaddition step. With acyl isocyanates, diazoketones 29 cycloadd to give 5-acylamino-l,2,3-thiadiazoles 195 by addition across the C=S bond (252), in analogy with the behavior of diazomethyl-ketones and diazoacetates (5). 

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