Halides a-halo ketones

Acid chlorides and bromides, allyl halides, a-halo-ketones, esters, amides and nitriles react at 25° within 3 minutes. Vinyl and aryl halides are inert. 

Among compounds other than simple alkyl halides a halo ketones and a halo esters have been employed as substrates m the Gabriel synthesis Alkyl p toluenesul fonate esters have also been used Because phthalimide can undergo only a single alkyl ation the formation of secondary and tertiary amines does not occur and the Gabriel synthesis is a valuable procedure for the laboratory preparation of primary amines... 

Electrooxidation of halide salts is quite useful for the generation of reactive species of halogen atoms under mild conditions. Functionalization of alkenes involving the formation of halohydrins, 1,2-halides, a-halo ketones, epoxides, allylic halides and others has been achieved by electrochemical reactions and is well documented in the literature. On the other hand, electrogenerated carbenium ions can be captured by nucleophilic halide anions, providing a new route to halogenated compounds... 

Among compounds other than simple alkyl halides, a-halo ketones, a-halo esters, and alkyl p-toluenesulfonates have also been used. Because phthalimide can undergo... 

Alkyl Halides, Polyhalides, a-Halo Ketones and Esters... 

Analyzing the target molecule in this way reveals that the required alkyl halide IS an a halo ketone Thus a suitable starting material would be bromomethyl phenyl ketone... 

Various alkylating agents are used for the preparation of pyridazinyl alkyl sulfides. Methyl and ethyl iodides, dimethyl and diethyl sulfate, a-halo acids and esters, /3-halo acids and their derivatives, a-halo ketones, benzyl halides and substituted benzyl halides and other alkyl and heteroarylmethyl halides are most commonly used for this purpose. Another method is the addition of pyridazinethiones and pyridazinethiols to unsaturated compounds, such as 2,3(4//)-dihydropyran or 2,3(4//)-dihydrothiopyran, and to compounds with activated double bonds, such as acrylonitrile, acrylates and quinones. 

In general the Stork reaction gives moderate yields with simple alkyl halides better yields of alkylated product are obtained with more electrophilic reactants such like allylic, benzylic or propargylic halides or an a-halo ether, a-halo ester or a-halo ketone. An example is the reaction of 1-pyrrolidino-l-cyclohexene 6 with allyl bromide, followed by aqueous acidic workup, to yield 2-allylcyclohexanone ... 

Primary amines can be prepared from alkyl halides by the use of hexamethylenetetramine followed by cleavage of the resulting salt with ethanolic HCl. The method, called the Delepine reaction, is most successful for active halides such as allylic and benzylic halides and a-halo ketones, and for primary... 

Alkenylboranes (R2C=CHBZ2 Z — various groups) couple in high yields with vinylic, alkynyl, aryl, benzylic, and allylic halides in the presence of tetra-kis(triphenylphosphine)palladium, Pd(PPh3)4, and a base to give R C CHR. 9-Alkyl-9-BBN compounds (p. 1013) also couple with vinylic and aryl halides " as well as with a-halo ketones, nitriles, and esters.Aryl halides couple with ArB(IR2 ) species with a palladium catalyst. ... 

Alkylation of enamines requires relatively reactive alkylating agents for good results. Methyl iodide, allyl and benzyl halides, a-halo esters, a-halo ethers, and a-halo ketones are the most successful alkylating agents. The use of enamines for selective alkylation has largely been supplanted by the methods for kinetic enolate formation described in Section 1.2. 

Cf. Gabriel synthesis, where the product is also amine and Sommelet reaction, where the product is aldehyde. The Delepine works well for active halides such as benzyl, allyl halides, and a-halo-ketones. 

Direct alkylation of indoles under neutral conditions has been observed for especially reactive alkyl halides. 3-Methylbutenyl bromide gives the 3-substituted indole in acetic acid-sodium acetate at room temperature (equation 170) (69TL2485). At higher temperature in acidic solution, 1,2-dimethylindole undergoes bisallylation (equation 171) (67CJC2628). a-Halo ketones including bromoacetone, 3-bromo-2-butanone and 2-chlorocyclohexanone can alkylate 2-substituted indoles in aqueous acetic acid, but the acidic conditions used in these reactions would probably be destructive of indole itself (72JOC2010). 

The halogen of an a-halo aldehyde or an a-halo ketone is exceptionally unreactive in SN1-displacement reactions, but is exceptionally reactive in Sn2 displacements, compared with the halogen of alkyl halides having comparable potential steric effects. Similar behavior is observed with a-halo carboxylic acids and is discussed further in Chapter 18. 

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