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Alkyl chlorides long-chained

Chain extension by means of the reaction of alkyl halides with cyanide is frequently alluded to but rarely employed, mainly because of the long reaction times and poor yields usually encountered. The use of DMSO as a solvent has greatly simplified the procedures and improved the yields of many ionic reactions, and the conversion of alkyl chlorides to nitriles is a good example. [Pg.140]

The cobalt-catalysed reaction between aryl bromides and Grignard reagents assisted by IMes HCl is also known, however the substrate scope is quit narrow and good yields are only obtained when non-branched long chain alkyl magnesium chlorides are used as coupling reagents [80] (Scheme 6 19)... [Pg.168]

The alkyl halides react with cyanide to produce alkyl cyanides. But this reaction has rarely been employed to obtain the increased length of the chain because of the long reaction times and poor yields. However, the use of DMSO as a solvent has simplified the procedure and improved the yields for the conversion of primary and secondary alkyl chlorides into cyanides, without any rearrangement. [Pg.311]

A better method for studying the alkali metal cation-soap anion interaction on the surface, according to Weil (58), is to assume a similarity between surface behavior and solution behavior and to use the activity coefficient of the solute in the solution as the parameter to account for surface behavior. By plotting activity coefficients as a function of the molality for the salts of the alkali metals (7, 26), the resulting order of the curves of the weak acids (formates, acetates, hydroxides) is the reverse of that found for the strong acids (chlorides, bromides, nitrates, chlorates, sulfates). The activity curves of the acetate salts can be used as the counterparts for the long-chain fatty acid salts, while those for the chlorides can be the analogs of the alkyl sulfates. The scheme is speculative in that the fatty acid and alkyl sulfate salts micellize, and acetate and chloride do not. [Pg.239]

Long-chain alkyl chlorides can be used lor the synthesis of various amines, while benzyl chloride is used for production of quaternary ammonium compounds. Alkyl chlorides are used for the formation of organometallics, including the Grignard reagents as well as for alkylation of aromatics. One of the important reactions or phosgene is with diamines for production of diisocyunates (polyurethanes). [Pg.366]

B. Reaction with Long-Chained Alkyl Chlorides. 151... [Pg.145]

C. Reaction with a Gaseous Mixture of Long-Chained Alkyl Chlorides and Hydrogen Chloride... [Pg.155]

In contrast to long-chain alkyl chlorides, silyl-group substituted methyl chlorides having no (3-hydrogen do not decompose much under... [Pg.156]

The oxidation of primary alkyl halides to carboxylic acids is accomplished on incubation of long-chain aliphatic fluorides, chlorides, bromides, and iodides with the yeast Torulopsis gropengiesseri [1086,1087] (equation 200). The biooxidation starts at the terminal methyl groups and gives w-halogenoalkanoic acids, which are ultimately converted to a,oj-dicarboxylic... [Pg.112]

Ammonium salts with two different alkyl chains were prepared directly via subsequent alkylations of dimethylamine with primary bromides and crystallization. Commercial hexadecyl-methylamine can be conveniently applied in the same way in order to convey functionality to cationic synkinons. A recent example describes subsequent alkylations with a small functional and a long-chain primary bromide (Scheme 2.4). A-acylated / -phenylenediamine was also alkylated at the second nitrogen atom which had two different alkyl chains, with or without extra functionality . After deacylation, this head group can be diazotized or coupled oxidatively with various heterocycles in water (Scheme 2.4). Photoactive and coloured membrane surfaces are thus obtained. Phenylene-diamine, pyridine and in particular A-methyl-4,4-bipyridinium chloride are relatively weak nucleophiles. Substitution of bromides is slow and the more reactive iodides can rarely be obtained commercially, but the selection of nitromethanes as solvent for bromide substitution is of great help as well as the addition of sodium iodide to enforce a Finkelstein reaction or a combination of both. [Pg.11]

Industrially, cellulose is alkylated by the action of alkyl chlorides (cheaper than sulfates) in the presence of alkali. Considerable degradation of the long chains is unavoidable in these reactions. [Pg.1128]

In addition polymerization, monomers react to form a polymer chain without net loss of atoms. The most common type of addition polymerization involves the free-radical chain reaction of molecules that have C = C bonds. As in the chain reactions considered in Section 18.4, the overall process consists of three steps initiation, propagation (repeated many times to build up a long chain), and termination. As an example, consider the polymerization of vinyl chloride (chloro-ethene, CH2 = CHC1) to polyvinyl chloride (Fig. 23.1). This process can be initiated by a small concentration of molecules that have bonds weak enough to be broken by the action of light or heat, giving radicals. An example of such an initiator is a peroxide, which can be represented as R—O—O—R, where R and R represent alkyl groups. The weak 0—0 bonds break... [Pg.930]

See other pages where Alkyl chlorides long-chained is mentioned: [Pg.254]    [Pg.218]    [Pg.360]    [Pg.172]    [Pg.493]    [Pg.52]    [Pg.107]    [Pg.22]    [Pg.1152]    [Pg.495]    [Pg.10]    [Pg.264]    [Pg.467]    [Pg.30]    [Pg.164]    [Pg.159]    [Pg.362]    [Pg.68]    [Pg.1152]    [Pg.436]    [Pg.546]    [Pg.309]    [Pg.505]    [Pg.166]    [Pg.68]    [Pg.151]    [Pg.155]    [Pg.78]    [Pg.31]    [Pg.1345]    [Pg.25]    [Pg.540]    [Pg.511]    [Pg.13]    [Pg.489]    [Pg.1009]   
See also in sourсe #XX -- [ Pg.151 , Pg.152 , Pg.153 , Pg.154 , Pg.155 , Pg.156 , Pg.157 ]



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