Isocyanates, addition preparation

Additional uretonimine-modified isocyanates were prepared by the authors (1) in an earlier investigation and are discussed. Uretonimine-modified isocyanates were also prepared by Richter et al. (2) using cyclopentyldimethylphosphine as the reaction catalyst. 

Flucarbazone and propoxycarbazone can be prepared by various methods (a) Sulfonyl isocyanate addition (Scheme 2.6.2) [1, 17]. 

A routine measurement of diisocyanate content is usually desirable because, as most of the isocyanates are prepared by the phosgenation process, free phosgene may be present if it has not been removed in the final purification step. This will be included in the hydrolyzable chloride test, and partly included in the acidity test, if hydrolysis takes place. Also, if the diisocyanate has been stored under adverse conditions, some isocyanate could be converted by moisture to insoluble urea. Alternatively some dimerization may occur. In both cases isocyanate is consumed and the result is a decrease in active content. Additionally, diisocyanates do show some batch to batch variations in activity hence it is convenient to measure their reactivity against a control, a polyester (or polyether) of previously known activity, by making a small quantity of the polyurethane and measuring its final reaction exotherm temperature, rate at which its exotherm is achieved, pot life and time to achieve gelation. If a more... 

A series of fungicides are prepared with isocyanates. Addition of oximes 285 to MIC is the main process stage for the manufacture of N-methyl carbamate insecticides such as Aldicarb, Meihomyl, Oxamyl, and Thiopanox. 

Reactivity is calculated by a kinetic procedure in which the percentage of the original phenyl isocyanate addition, which reacts with the sample in a given time, is taken as an index of its reactivity. A calibration graph can be prepared in which the determined phenyl isocyanate reactivity is plotted against the ethylene oxide content, enabling a determination to be made of the ethylene oxide content of unknown samples from the calibration graph by interpolation. 

The preparation of a urethane acrylate according to the inside-out technology starts with the polymeric diol. The reactor is charged with the diisocyanate, catalyst, and stabilizer. Now the diol is added slowly and a strong exothermic reaction starts. The rate of isocyanate addition is generally used to control the reaction exotherm in such a way that the temperature does not exceed 45°C. The control of this exotherm is especially important when IPDI is used as diisocyanate. For a higher se-... 

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... 

Chlorosulfonyl isocyanate is an excellent alternative to alkaline cyanates ia the preparation of hydantoias from stericaHy hindered or labile amino nitriles (62). Imino derivatives similar to (18) can also be obtained by addition of sonitnles to imines followed by treatment with a cyanate (63). 

More convenient is the use of aryl a2ides which are readily converted into isocyanates upon heating in nonreactive solvents via the loss of nitrogen. The latter method is useful for the synthesis of isocyanates with additional substituents which could not be prepared with phosgene (20). 

Molecular weights of poly(propylene oxide) polymers of greater than 100,000 are prepared from catalysts containing FeCl (40,41). The molecular weight of these polymers is gready increased by the addition of small amounts of organic isocyanates (42). Homopolymers of propylene oxide are also prepared by catalysis using diethylzinc—water (43), diphenylzinc—water (44), and trialkyl aluminum (45,46) systems. 

The synthesis of 3-acyl- and 3-aroyl-l,2-benzisoxazoles was accomplished by the desulfurization of (562). The dithioacetal (562) was prepared by the addition of the lithium salt of propenedithioacetal to an isocyanate with subsequent base cyclization (equation 61) (B-79MI41609). 

The third approaeh to synthetic polymers is of somewhat less commereial importance. There is in fact no universally accepted deseription for the route but the terms rearrangement polymerisation and polyaddition are commonly used. In many respects this process is intermediate between addition and condensation polymerisations. As with the former teehnique there is no moleeule split out but the kinetics are akin to the latter. A typical example is the preparation of polyurethanes by interaction of diols (di-alcohols, glycols) with di-isocyanates Figure 2.7). 

Polyaddition reactions based on isocyanate-terminated poly(ethylene glycol)s and subsequent block copolymerization with styrene monomer were utilized for the impregnation of wood [54]. Hazer [55] prepared block copolymers containing poly(ethylene adipate) and po-ly(peroxy carbamate) by an addition of the respective isocyanate-terminated prepolymers to polyazoesters. By both bulk and solution polymerization and subsequent thermal polymerization in the presence of a vinyl monomer, multiblock copolymers could be formed. 

Acylurea derivatives are readily prepared in one step by addition of amines to acyl isocyanates in high yields (Eqs. 1 and 2)14>. 

A urethane is typically prepared by nucleophilic addition reaction between an alcohol and an isocyanate (R—N = C=0), so a polyurethane is prepared by reaction between a cliol and a diisocyanate. The diol is usually a low-molecular-weight polymer (MW 1000 amu) with hydroxyl end-groups the diisocyanate is often toluene-2,4-diisocyanate. 

B. Polymeric Urea [Benzene, diethenyl-, polymer with ethenylbenzene, [[[[(1 methylethyl)amino]carbonyt]amino]methyl] deriv.] A 10.0-g. portion of benzylamine polymer beads prepared as in Part A and 125 ml. of tetrahydrofuran (Note 6) are combined in a 300-ml., three-necked, round-bottomed flask equipped with a magnetic stirrer, a dropping funnel, and a condenser fitted with a gas-inlet tube A nitrogen atmosphere is established in the system, and the slurry is stirred while 1.35 g. (0.0159 mole) of isopropyl isocyanate [Propane, 2-isocyanato-] is added. This causes an exothermic reaction, which subsides after about 20 minutes. The mixture is then stirred at room temperature for 22 hours and at reflux for an additional 4 hours. The beads are collected by filtration, washed with 150-ml. portions of tetrahydrofuran (Note 6) and methanol, and dried under reduced pressure over calcium chloride to yield 9.09 g, of the isopropyl urea polymer. 

Carbamates (substituted urethanes) are prepared when isocyanates are treated with alcohols. This is an excellent reaction, of wide scope, and gives good yields. Isocyanic acid HNCO gives unsubstituted carbamates. Addition of a second mole of HNCO gives allophanates. 

Ammonia and primary and secondary amines can be added to isocyanates to give substituted ureas. Isothiocyanates give thioureas. This is an excellent method for the preparation of ureas and thioureas, and these compounds are often used as derivatives for primary and secondary amines. Isocyanic acid (HNCO) also gives the reaction usually its salts (e.g., NaNCO) are used. Wohler s famous synthesis of urea involved the addition of ammonia to a salt of this acid. "... 

The addition of Grignard reagents to isocyanates gives, after hydrolysis, N-substituted amides. This is a very good reaction and can be used to prepare derivatives of alkyl and aryl halides. The reaction has also been performed with... 

Like the similar cycloaddition of ketenes to alkenes (15-61), most of these reactions probably take place by the di-ionic mechanism c (p. 1078). P-Lactams have also been prepared in the opposite manner by the addition of enamines to isocyanates ... 

Experimental Materials. All the data to be presented for these illustrations was obtained from a series of polyurethane foam samples. It is not relevant for this presentation to go into too much detail regarding the exact nature of the samples. It is merely sufficient to state they were from six different formulations, prepared and physically tested for us at an industrial laboratory. After which, our laboratory compiled extensive morphological datu on these materials. The major variable in the composition of this series of foam saaqples is the aaK>unt of water added to the stoichiometric mixture. The reaction of the isocyanate with water is critical in determining the final physical properties of the bulk sample) properties that correlate with the characteristic cellular morphology. The concentration of the tin catalyst was an additional variable in the formulation, the effect of which was to influence the polymerization reaction rate. Representative data from portions of this study will illustrate our experiences of incorporating a computer with the operation of the optical microscope. 

Since 1985, several thousands of publications have appeared on complexes that are active as catalysts in the addition of carbon monoxide in reactions such as carbonylation of alcohols, hydroformylation, isocyanate formation, polyketone formation, etc. It will therefore be impossible within the scope of this chapter to review all these reports. In many instances we will refer to recent review articles and discuss only the results of the last few years. Second, we will focus on those reports that have made use explicitly of coordination complexes, rather than in situ prepared catalysts. Work not containing identified complexes but related to publications discussing well-defined complexes is often mentioned by their reference only. Metal salts used as precursors on inorganic supports are often less well defined and most reports on these will not be mentioned. 

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