Heterocumulenes isocyanates

As with other heterocumulenes, isocyanates undergo cycloaddition to enamines to give aminoazetidinones. Aldehyde enamines containing a -hydrogen give the corresponding amide . If there is no jS-hydrogen, azetidinones can be isolated at low... 

Polyurethane Formation. The key to the manufacture of polyurethanes is the unique reactivity of the heterocumulene groups in diisocyanates toward nucleophilic additions. The polarization of the isocyanate group enhances the addition across the carbon—nitrogen double bond, which allows rapid formation of addition polymers from diisocyanates and macroglycols. 

The 27T-electrons of the carbon-nitrogen double bond of 1-azirines can participate in thermal symmetry-allowed [4 + 2] cycloadditions with a variety of substrates such as cyclo-pentadienones, isobenzofurans, triazines and tetrazines 71AHC(13)45). Cycloadditions also occur with heterocumulenes such as ketenes, ketenimines, isocyanates and carbon disulfide. It is also possible for the 27r-electrons of 1-azirines to participate in ene reactions 73HCA1351). 

Four-membered heterocycles are easily formed via [2-I-2] cycloaddition reac tions [65] These cycloaddmon reactions normally represent multistep processes with dipolar or biradical intermediates The fact that heterocumulenes, like isocyanates, react with electron-deficient C=X systems is well-known [116] Via this route, (1 lactones are formed on addition of ketene derivatives to hexafluoroacetone [117, 118] The presence of a trifluoromethyl group adjacent to the C=N bond in quinoxalines, 1,4-benzoxazin-2-ones, l,2,4-triazm-5-ones, and l,2,4-tnazin-3,5-diones accelerates [2-I-2] photocycloaddition processes with ketenes and allenes [106] to yield the corresponding azetidine derivatives Starting from olefins, fluonnaied oxetanes are formed thermally and photochemically [119, 120] The reaction of 5//-l,2-azaphospholes with fluonnated ketones leads to [2-i-2j cycloadducts [121] (equation 27)... 

A (pentamethylcyclopentadienyl)iridium chelating guanidinate complex has been conveniently prepared by treatment of [Cp IrCl2]2 with N,N, N"-th-p-tolylguanidine and base in THF at room temperature followed by recrystallization of the green product from toluene and pentane (Scheme 154). Insertion reactions of the product with heterocumulenes (diaryl carbodiimides, aryl isocyanates) have been investigated. It was found that the complex serves as highly active catalyst for the metathesis of diaryl carbodiimides with each other and for the more difficult metathesis of diaryl carbodiimides with aryl isocyanates (cf. Section V.C). ... 

With isocyanates R"N=C=0 as unsymmetrical heterocumulenes the reactivity to yield bis(insertion)products is markedly higher and there are many more possibilities (2) for isomerism. In fact, we find now that the product selection is more varied than reported in a previous article [3], and that e. g. the use of 1 R,R = Me, and phenyl- or isopropylisocyanate results in mixtures of isomers, even at low temperatures. Sterically more discriminating derivatives of 1 with R = Me, R = rm-Bu and R = wo-Pr, R = H yield one major stable isomer with PhN=C=0 which could be identified as the (cis O, N ) form by NMR spectroscopy. 

I.3.4.2.4. Heterocumulenes The 1,3-dipolar cycloaddition of substituted ben-zonitrile oxides to the C=N group of chlorocarbonyl isocyanate C1C(0)N=C=0 gives 3-aryl-4-chlorocarbonyl-5-oxo-4,5-dihydro-l,2,4-oxadiazoles 172 in 75%-80% yield (340). A similar reaction with chlorosulfonyl isocyanate, C1S02N=C=0, affords 4-unsubstituted oxadiazolinones 173 (341). 

Conjugated heterocumulenes generated in situ by an aza-Wittig reaction are also capable of electrocyclic-ring closure with a subsequent 1,3-H shift. This principle, applied for the first time by Saito et al. on butadiene iminophosphorane 51 (Scheme 28) by treatment with isocyanate and isothiocya-... 

The synthetic route to 1,3,4-oxadiazines and 1,3,4-thiadiazines (Scheme 105) begins with the iminophosphorane of imidazolone 294, which is converted with isocyanate or isothiocyanate to carbodiimide 295. A second addition of the heterocumulenes occurs to the CH acid at the 5-position,... 

Due to their high electrophihcity, isocyanates are useful starting materials for the synthesis of heterocycles and C-C bond formation using carbon nucleophiles. A key feature of these reactions is the requirement for more than one equivalent of base. Additionally, a few examples of transition metal-catalyzed homologation of the central carbon of the heterocumulene moiety have been reported. 

In contrast to 4-alkyl-5-sulfonylimino-A -l,2,3,4-thiatriazolines (58) (Section 4.19.5.1.2), 4-alkyl-5-alkylimino-A -l,2,3,4-thiatriazolines (50) react with immediate nitrogen evolution when added to electron-rich alkenes or to heterocumulenes such as enamines, carbodiimides, isocyanates, isothiocyanates, or styrene. Reaction kinetics for certain of this type of system show that they undergo bimolecular processes as described below. 

The palladium-phosphine-catalyzed cycloaddition reactions of vinyloxetanes 530 with aryl isocyanates or diaryl-carbodiimides led to 4-vinyl-l,3-oxazin-2-ones 531 or l,3-oxazin-2-imines 532, respectively (Scheme 101). In the absence of phosphine ligands (PPhs, bis(diphenylphosphino)ethane (DPPE), l,3-bis(diphenylphosphino)propane (dppp), no conversion of heterocumulenes was observed. Starting from fused-bicyclic vinyloxetanes, both types of cycloadditions proceeded in a highly stereoselective fashion, affording only the r-isomers of alicycle-condensed 1,3-oxazine derivatives <1999JOC4152>. 

Diazo(trimethylsilyl)methyl lithium (3) was found to be the reagent of choice for the synthesis of azoles from heterocumulenes (Scheme 8.43). The reaction is typically carried out in ether at 0-20 °C. Thus, alkyl- (or aryl-)substituted keteni-mines are transformed into 1,2,3-triazoles 188 (246), while C-acceptor-substituted ketenimines yield either 4-aminopyrazoles 189 or 1,2,3-triazoles, depending on the substituents (247). Isocyanates are converted into 5-hydroxy-1,2,3-triazoles 190 (248). Reaction of 3 with isothiocyanates are strongly solvent dependent. 

The 1,3-dipolar cycloaddition of a-keto carbenoids to the polar double bond of heterocumulenes provides a direct access to five-membered heterocycles. The reaction of a-diazo ketones 132 with phenyl isocyanate in the presence of a Rh2(OAc)4 catalyst affords the 1,3-cycloadduct, 3-phenyl-2(3//)-oxazolones 133 (Fig. 5.32). ... 

Many of the compounds of this type have been prepared by interaction of cumulene ylides witli heterocumulenes and these are covered in a review by Bestmann <77AG(E)349>. The oxetane system 5 results from reaction of Ph3P=C=C=S with aryl isocyanates, ArNCO <77AG(E)349>. An unusual approach to an oxetane ylide is the reaction of DMAD with CO2 and two equivalents of methyl phosphite which gives 6 <81CC607>. 

Iminophosphoranes have also proved to be key intermediates because they react with carbonyl compounds, isocyanates, isothiocyanates, acid chlorides, carbon dioxide, and carbon disulfide to give a wide range of imines and heterocumulenes, which are intermediates to pteridines. The preparation of iminophosphoranes has been investigated... 

N-Vinyl heterocumulenes represent a new, highly reactive 2-azadiene species, which react, in general, with electron-rich alkenes and alkynes. Accordingly, we think it is of interest to complement the utility of electron-poor 2-azadienes in [4 + 2] cycloadditions by showing some examples involving A-vinyl isocyanates, -isothiocyanates, -carbodiimides, and -ketenimines. 

Reaction of Mo02(MeHNO)2 with heterocumulenes such as alkyl or aryl isocyanate... 

Isocyanates and isothiocyanates are highly reactive heterocumulenes, and are usually only prepared on solid phase as intermediates for the synthesis of ureas, carbamates, thioureas, etc., using methods similar to those used in solution (Table 14.2). 

Isocyanate and isothiocyanate carbon nuclei resonate between 120 and 130 ppm [77a]. Isothiocyanate carbons are slightly deshielded relative to comparable isocyanates. Typical nitrile shift values (110-115 ppm) are characteristic of thiocyanates (rhodanides), while the carbon nuclei of rhodanide and cyanate anions shift to lower field due to significant contributions of heterocumulene-type resonance formulae. 

C02 of other monomeric stannilenes, such as bis[N-trimethylsilyl-N-2,6-diisopro-pylphenylamido]tin(II) and bis[N,N-bis(dimethylphenysilyl)amido]tin(II). Whilst the former stannilene was inert towards C02, the latter one underwent metathesis (323 K, 0.2 MPa, pentane as solvent) with the heterocumulene generating the relevant isocyanate and carbodiimide in a 4.4 1 molar ratio [117b]. 

The 1,3-diazetidine derivatives are most commonly synthesized by the dimerization of heterocumulenes. At elevated temperature they undergo dissociation and are in equilibrium with their monomers. For example, 1,3-diazetidine 108, formed by the reaction of a-naphthyl isocyanate 106 with dicyclohexylcarbodiimide 107, upon thermal dissociation furnished products of its [2+2] cycloreversion reaction, that is, cyclohexyl isocyanate 110 and a-naphthylcyclohexylcarbodiimide 109 (Scheme 10) <1962AGE621>. 

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