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Nitrile special

D) Nitriles. Acetonitrile, CH3CN, b.p. 82°, is miscible with water, but benzonitrile, CaHjCN, b.p. 191, is insoluble. Acetonitrile, unless specially purified, retains the mouse like odour of acetamide benzonitrile has an odour resembling both that of benzaldchyde and of nitrobenzene (bitter almonds). [Pg.359]

The acetoacetic ester condensation (involving the acylation of an ester by an ester) is a special case of a more general reaction term the Claisen condensation. The latter is the condensation between a carboxylic ester and an ester (or ketone or nitrile) containing an a-hydrogen atom in the presence of a base (sodium, sodium alkoxide, sodamide, sodium triphenylmethide, etc.). If R—H is the compound containing the a- or active hydrogen atom, the Claisen condensation may be written ... [Pg.477]

An important nitrile is acrylonitrile H2C=CHCN It is prepared industrially from propene ammonia and oxygen m the presence of a special catalyst Polymers of acryl omtrile have many applications the most prominent being their use m the preparation of acrylic fibers... [Pg.870]

Rubbers. Plasticizers have been used in mbber processing and formulations for many years (8), although phthaHc and adipic esters have found Htde use since cheaper alternatives, eg, heavy petroleum oils, coal tars, and other predominandy hydrocarbon products, are available for many types of mbber. Esters, eg, DOA, DOP, and DOS, can be used with latex mbber to produce large reductions in T. It has been noted (9) that the more polar elastomers such as nitrile mbber and chloroprene are insufficiendy compatible with hydrocarbons and requite a more specialized type of plasticizer, eg, a phthalate or adipate ester. Approximately 50% of nitrile mbber used in Western Europe is plasticized at 10—15 phr (a total of 5000—6000 t/yr), and 25% of chloroprene at ca 10 phr (ca 2000 t/yr) is plasticized. Usage in other elastomers is very low although may increase due to toxicological concerns over polynuclear aromatic compounds (9). [Pg.129]

Cyanohydrins are highly toxic by inhalation or ingestion, and moderately toxic through skin absorption (21). AH a-hydroxy nitriles are potential sources of hydrogen cyanide or cyanides and must be handled with considerable caution. Contact with the skin and inhalation should be rigorously avoided. Special protective clothing should be worn and any exposure should be avoided (18,20). The area should be adequately ventilated. Immediate medical attention is essential in case of cyanohydrin poisoning. [Pg.413]

Third Monomers. In order to achieve certain property improvements, nitrile mbber producers add a third monomer to the emulsion polymerization process. When methacrylic acid is added to the polymer stmcture, a carboxylated nitrile mbber with greatly enhanced abrasion properties is achieved (9). Carboxylated nitrile mbber carries the ASTM designation of XNBR. Cross-linking monomers, eg, divinylbenzene or ethylene glycol dimethacrylate, produce precross-linked mbbers with low nerve and die swell. To avoid extraction losses of antioxidant as a result of contact with fluids duriag service, grades of NBR are available that have utilized a special third monomer that contains an antioxidant moiety (10). FiaaHy, terpolymers prepared from 1,3-butadiene, acrylonitrile, and isoprene are also commercially available. [Pg.522]

The difficulties encountered in the synthesis of 2-alkyl- and 2-aryl-substituted selenazoles lie principally in the preparation of the corresponding selenoamides. In this respect, a method is worthy of note in which the use of selenoamides is dispensed with. For this, a nitrile, a hydrogen selenide, and an a-halogenoketone are reacted together in the presence of a condensation catalyst. Phosphorus oxychloride, alone or mixed with zinc chloride or phosphorus trichloride, is specially suitable. The yields of the corresponding 2-alkylseIenazoles are up to a maximum of 25%,... [Pg.345]

An a-amino acid 3 can be prepared by treating aldehyde 1 with ammonia and hydrogen cyanide and a subsequent hydrolysis of the intermediate a-amino nitrile 2. This so-called Strecker synthesis - is a special case of the Mannich reaction-, it has found application for the synthesis of a-amino acids on an industrial scale. The reaction also works with ketones to yield a, a -disubstituted a-amino acids. [Pg.270]

Nitrile rubber is a copolymer of butadiene and acrylonitrile. It has the special property of being resistant to hydrocarbon liquids. [Pg.353]

A particularly useful variation of this reaction uses cyanide rather than HCN. a-Amino nitriles can be prepared in one step by the treatment of an aldehyde or ketone with NaCN and NH4CI. This is called the Strecker synthesisand it is a special case of the Mannich reaction (16-15). Since the CN is easily hydrolyzed to the acid, this is a convenient method for the preparation of a-amino acids. The reaction has also been carried out with NH3-I-HCN and with NH4CN. Salts of primary and secondary amines can be used instead of NH to obtain N-substituted and N,N-disubstituted a-amino nitriles. Unlike 16-51, the Strecker synthesis is useful for aromatic as well as aliphatic ketones. As in 16-51, the Me3SiCN method has been used 64 is converted to the product with ammonia or an amine. ... [Pg.1240]

Nitrilium salts, e.g., 66, prepared from the alkylation of nitriles, react with sodium azide to yield 1,5-disubstituted tetrazoles, e.g., 67 (Scheme 7).121 The Schmidt reaction,122 a versatile method for the preparation of 1,5-disubstituted tetrazoles from ketones and hydrazoic acid, can now be regarded as a special case of azide addition to nitrilium salts.123... [Pg.223]

The chemistry of nitrile oxides is well documented. Several important monographs either specially devoted to nitrile oxides or including corresponding comprehensive chapters should be mentioned (1—5). Several reviews appeared (6—8), which concern preparation, reactivity, and synthetic applications of nitrile oxides. Some books and reviews devoted to individual aspects of nitrile oxide chemistry will be cited elsewhere. [Pg.1]

Addition of C-nucleophiles to nitrile oxides is of special interest. There are examples of reactions with both carbanions and neutral carbon nucleophiles. To the former group belong reactions of nitrile oxides with organometallic... [Pg.18]

In the scope of this subsection, competitive 1,3-cycloaddition of nitrile oxides to carbon-carbon and carbon-heteroatom multiple bonds are of special interest. Competition between carbon-carbon and carbon-nitrogen double bonds in... [Pg.20]

Actually, nitronates are the closest related derivatives of nitronic acids, that is, aci forms of AN, which exist in labile equilibrium with true AN. Some derivatives of nitronic acids, —CH=N(0)0X, where OX is the good leaving group, are evident intermediates in the most well-developed procedures for the synthesis of nitrile oxides from primary AN. In this chapter, special emphasis is given to particular nitronates, which are generated from a-functionalized AN and can also be considered as precursors of a-functionalized nitrile oxides. [Pg.435]

As a kind of special case, the asymmetric 1,3-dipolar reaction of nitrile oxides or nitrones constitutes one of the most useful and convenient methods for preparing isoxazolidine derivatives. [Pg.322]

Thermolysis (550-650°C/10 4-I0 Torr) of /m-butylaminomethylene-malonate (1707) gave a tautomeric equilibrium of (Z/ >3-hydroxypropene-nitrile and cyanoatetaldehyde (see Scheme 59). The products of thermolysis of 1707 were investigated by 1R spectroscopy at 77° K using a special apparatus. [Pg.347]

Overberger, C. G., and A. Lebovits Azo-bis Nitriles. Decomposition of Azo Compounds. A Special Case of Carbon-Carbon Hyperconjugation in a Free Radical Reaction. J. Amer. chem. Soc. 76, 2722 (1954). [Pg.88]

This chapter, therefore, ends the monograph with a potpourri of reactions all of which occur without a change in oxidation state. In many cases, the reaction is one of nucleophilic attack at an electrophilic C-atom. The result is often hydrolytic bond cleavage (e.g., in carbohydrate conjugates, disubstitut-ed methylene and methine groups, imines, oximes, isocyanates, and nitriles, and various ring systems) or a nucleophilic substitution (e.g., hydrolytic de-halogenation of halocarbons and chloroplatin derivatives, and cyclization reactions). The formation of multiple bonds by dehydration is a special case to be discussed separately. [Pg.680]

Transfer the gel in a UV chamber carefully (as ethidium bromide is carcinogen, use two pairs of nitrile rubber gloves and be careful to prevent any contamination deposit the buffer containing ethidium bromide in a special waste bottle). [Pg.202]

Since sodium borohydride usually does not reduce the nitrile function it may be used for selective reductions of conjugated double bonds in oc,/l-un-saturated nitriles in fair to good yields [7069,1070]. In addition some special reagents were found effective for reducing carbon-carbon double bonds preferentially copper hydride prepared from cuprous bromide and sodium bis(2-methoxyethoxy)aluminum hydride [7766], magnesium in methanol [7767], zinc and zinc chloride in ethanol or isopropyl alcohol [7765], and triethylam-monium formate in dimethyl formamide [317]. Lithium aluminum hydride reduced 1-cyanocyclohexene at —15° to cyclohexanecarboxaldehyde and under normal conditions to aminomethylcyclohexane, both in 60% yields [777]. [Pg.175]


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