Hydrolysis isocyanates

Initially, water can cause the hydrolysis of the anhydride or the isocyanate, Scheme 28 (reaction 1 and 2), although the isocyanate hydrolysis has been reported to occur much more rapidly [99]. The hydrolyzed isocyanate (car-bamic acid) may then react further with another isocyanate to yield a urea derivative, see Scheme 28 (reaction 3). Either hydrolysis product, carbamic acid or diacid, can then react with isocyanate to form a mixed carbamic carboxylic anhydride, see Scheme 28 (reactions 4 and 5, respectively). The mixed anhydride is believed to represent the major reaction intermediate in addition to the seven-mem bered cyclic intermediate, which upon heating lose C02 to form the desired imide. The formation of the urea derivative, Scheme 28 (reaction 3), does not constitute a molecular weight limiting side-reaction, since it too has been reported to react with anhydride to form imide [100], These reactions, as a whole, would explain the reported reactivity of isocyanates with diesters of tetracarboxylic acids and with mixtures of anhydride as well as tetracarboxylic acid and tetracarboxylic acid diesters [101, 102]. In these cases, tertiary amines are also utilized to catalyze the reaction. Based on these reports, the overall reaction schematic of diisocyanates with tetracarboxylic acid derivatives can thus be illustrated in an idealized fashion as shown in Scheme 29. 

The Hofmann rearrangement (Section 20.17) Amides are converted to amines by reaction with bromine in basic media. An A/-bromo amide is an intermediate it rearranges to an isocyanate. Hydrolysis of the isocyanate yields an amine. 

One of the early consequences of not using CFCs has been some scorching and discoloration in fire-retarded water-blown foams, because of the exothermic isocyanate hydrolysis reaction (CFC blowing agents tended to act as heat removers). It has been suggested that the scorch process is accentuated by certain flame retardants. 

Blodgett technique. The enhanced materials stability may make functional siloxane-based systems suitable for device integration and operation. It is noteworthy that standard isocyanate/hydrolysis polymerization chemistry can be used as well to build-up structurally regular multilayers. 

Anilides and a-Naphthalides. The Grignard reagents prepared from alkyl halides react with phenyl isocyanate (CgHjN=C=0) or with a-uaphthy l isocyanate (C,oH, N=C=0) to yield addition products that are converted by hydrolysis into anihdes and a-naphthalides respectively RX + Mg —> RMgX... 

Synthesis from OC-Amino Acids and Related Compounds. Addition of cyanates, isocyanates, and uiea derivatives to a-amino acids yields hydantoin piecuisois. This method is called the Read synthesis (2), and can be considered as the reverse of hydantoin hydrolysis. Thus the reaction of a-amino acids with alkaline cyanates affords hydantoic acids, which cyclize to hydantoins in an acidic medium. 

Reportedly, simple alkyl isocyanates do not dimerize upon standing. They trimerize to isocyanurates under comparable reaction conditions (57). Aliphatic isocyanate dimers can, however, be synthesized via the phosgenation of A[,A[-disubstituted ureas to yield /V-(ch1orocarhony1)ch1oroformamidine iatermediates which are subsequendy converted by partial hydrolysis and base catalyzed cycUzation. This is also the method of choice for the synthesis of l-alkyl-3-aryl-l,3-diazetidiones (mixed dimers of aromatic and aUphatic isocyanates) (58). 

Carbamic acid [463-77-4] NH2COOH, is the hydrated form of isocyanic acid [75-13-8] H—N=C=0. It is not known in the free state hydrolysis rapidly gives ammonia and carbon dioxide. 

Azoles containing a free NH group react comparatively readily with acyl halides. N-Acyl-pyrazoles, -imidazoles, etc. can be prepared by reaction sequences of either type (66) -> (67) or type (70)->(71) or (72). Such reactions have been carried out with benzoyl halides, sulfonyl halides, isocyanates, isothiocyanates and chloroformates. Reactions occur under Schotten-Baumann conditions or in inert solvents. When two isomeric products could result, only the thermodynamically stable one is usually obtained because the acylation reactions are reversible and the products interconvert readily. Thus benzotriazole forms 1-acyl derivatives (99) which preserve the Kekule resonance of the benzene ring and are therefore more stable than the isomeric 2-acyl derivatives. Acylation of pyrazoles also usually gives the more stable isomer as the sole product (66AHCi6)347). The imidazole-catalyzed hydrolysis of esters can be classified as an electrophilic attack on the multiply bonded imidazole nitrogen. 

Thiocarbamates, formed by reaction of a thiol with an isocyanate, are stable in acidic and neutral solutions and are readily cleaved by basic hydrolysis. The... 

After activation with peracetic acid and base treatment these derivatives form the isocyanate, which can be trapped with water to effect hydrolysis or with an alcohol to form other carbamates ... 

I-Cyano-3-phenylurea, first obtained by the alkaline hydrolysis of 5-anilino-3- -toluyl-l,2,4-oxadiazole, has been prepared by tlic condensation of phenyl isocyanate and the sodium salt of cyanamide. However, in these publications an incorrect structural assignment for the product was made. 1-Cyano-3-phenyl-urea is obtained also, together with other products, by warming gently l-cyano-3-phenylthiourea with caustic soda in the presence of ethylene chlorohydrin, or by gradually adding caustic )otash to a boiling solution of 1-phenyldithiobiuret and ethylene clilorohydrin in ethanol. ... 

An alternative route starts with a carboxy-terminated oligomer [36], This is reacted with glycidyl methacrylate to provide the methacrylate-terminated polymer. The resulting linkage is susceptible to hydrolysis, so the hydroxy group may be reacted with an isocyanate to improve environmental resistance (Scheme 3). 

The Cunius degradation of acyl azides prepared either by treatment of acyl halides with sodium azide or trimethylsilyl azide [47] or by treatment of acyl hydrazides with nitrous acid [f J yields pnmarily alkyl isocyanates, which can be isolated when the reaction is earned out in aptotic solvents If alcohols are used as solvents, urethanes are formed Hydrolysis of the isocyanates and the urethanes yields primary amines. 

The reaction of morpholine enamine of cyclohexanone with 1 mole of phenyl isocyanate has been reported (30,31) to give the monoadduet (49), consisting largely of the trisubstituted isomer, and with 2 moles of phenyl isocyanate, the bis adduct (50). That the bis adduct is a dicarboxyanilide rather than a urea derivative (32) such as 51 was shown by its mild hydrolysis to the ketone (52). Reaction of the morpholine enamine of 2-methylcyclo-... 

The reaction of isocyanates with enamines disubstituted at the -carbon gives -amino- -lactams (107,108). Thus the enamine (16) reacted exothermally with phenylisocyanate to give (33) dimethyl-l-phenyl-4-dimethylamino-2-acetidinone (157), which was converted by acid hydrolysis to 2-formyl-2-methyl propionanilide (158). 

Enamines of cyclic ketones do not form cycloaddition products, but give the mono- or dicarboxanilides (110,111). Thus the enamine (113) on reaction with 1 equivalent of phenyl isocyanate gave 160. Treatment of 113 with 2 equivalents, or 160 with 1 equivalent, of phenyl isocyanate gave the 2,6-disubstituted product (161). Mild acid hydrolysis of 160 and 161 produced the corresponding cyclohexanone(2-mono- and 2,5-di)carbox-anilides (110). 

The chiral bicyclic imidazolidine 74 is deprotonated at the 2 position by s-BuLi and the resulting anion adds to alkyl halides, acid chlorides, chlorofor-mates, phenyl isocyanate, and aldehydes. The use of this compound as a chiral formyl anion equivalent seems to be limited, however, since the diastereoselectiv-ity in the addition to aldehydes is poor and hydrolysis of the products 75 to give aldehydes also produces cyclohexane-1,2-diamine, necessitating isolation of the aldehyde as its 2,4-dinitrophenylhydrazone (96SL1109 98T14255). 

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