Halides enamines

Allylic amines are coupled to halides giving either allylic amines or enamines depending on the reaction condition. Reaction of steroidal dienyl triflate with Boc-diprotected allylamine affords allylamine. Use of AcOK as a base is crucial for the clean coupling[102]. The tert-allylic amine 123 reacts with an aryl halide to give the enamine 125 in DMF and allylic amine 124 in nonpolar solvents[103]. 

Alkylations of enamines of a,)9-unsaturated ketones with alkyl halides often give very poor yields of C-alkylated products because of competing. -alkylation.In the type of transformation illustrated here, direct alkylations of enamines are completely unsuccessful, even in cases where hindered enamines are used. On the other hand, the metaUoenamine method can be applied generally with good success in the problem of monoalkylation of ,)3-unsaturated ketones. ... 

Under sonication conditions, the reaction of perfluoroalkyl bromides or iodides with zinc can be used to effect a variety of functionalization reactions [39, 40, 41, 42] (equation 30) Interestingly, the ultrasound promoted asymmetric induction with the perfluoroalkyl group on the asymmetric carbon was achieved by the reaction of perfluoroalkyl halides with optically active enamines in the presence of zinc powder and a catalytic amount of dichlorobisftc-cyclopenta-dienyl)titanium [42] (equation 31)... 

With enamines of cyclic ketones direct C alkylation occurs with allyl and propargyl as well as alkyl halides. The reaction is again sensitive to the polarity of the solvent (29). The pyrrolidine enamine of cyclohexanone on reaction with ethyl iodide in dioxane gave 25% of 2-ethylcyclohexanone on hydrolysis, while in chloroform the yield was increased to 32%. 

One of the advantages of the enamine alkylation reaction over direct alkylation of the ketone under the influenee of strong base is that the major product is the monoalkylated derivative 29,32). When dialkylation is observed, it occurs at the least substituted carbon in contrast to alkylation with base, where the a-disubstituted product is formed. Dialkylation becomes the predominant reaction when a strong organic base is added and an excess of alkyl halide is used (29). Thus 1-N-pyrrolidino-l-cyclo-hexene (28) on treatment with two moles of allyl bromide in the presence of ethyl dicyclohexylamine (a strong organic base which is not alkylated under the reaction conditions) gave a 95 % yield of 2,6-diallylcyclohexanone (29). 

However, it has recently been shown (42) that monomeric enamines such as 42 react normally to give the benzothiazoline salt (43) on alkylation with alkyl and benzyl halides. 

Aryl halides with a halogen activated by electron-withdrawing groups react with pyrrolidine enamines of cyclic ketones (68) to give the a-arylated ketones after hydrolysis. The enamine (28) with 2,4-dinitrochlorobenzene gave an excellent yield of 2(2,4-dinitrophenyl)cyclohexanone (88). The... 

A two-step cyclization of an enamine with an electrophilic olefin has been reported in which the first step is alkylation by an allyl halide and the second step is alkylation by the electrophilic olefin (50). The reaction... 

The treatment of enamines with acid halides which possess no a hydrogens results in the simple acylation of the enamine (7,12,62-67). If the acid halide possesses an a hydrogen, however, ketenes are produced in situ through base-catalyzed elimination of hydrogen chloride from the acid halide. The base catalyst for this reaction may be the enamine itself or some other base introduced into the reaction mixture such as triethylamine. However, if the ketene is produced in situ instead of externally, there still remains the possibility of a side reaction between the acid halide and the enamine other than the production of ketene (67,84). 

Stereochemical positioning of a functional group, relative to a separate enamine moiety in the same molecule, can be done in such a manner that a simple intramolecular alkylation or acylation will cause cyclization. Such intramolecular cycloalkylations with alkyl halides have been reported 107,108). Inftamolecular cycloacylations of enamines with esters 109, 110,110a) and with nitriles 110a,l 11,111a) have also been observed. 

Reactions of Enamine Salts with OrganometalUc Compounds Organolithium and organomagnesium compounds react with enamine salts to give amines substituted on the ix-carbon atoms. The treatment of. -dehydroquinolizidinium perchlorate (163) with alkylmagnesium halides gives 9-alkylated quinolizidines (164) (252,256). Formation of... 

Enamines in which the vinyl nitrogen system is in conjugation with another functional group can be obtained from reactions of secondary amines with /8-ketoaldehydes and -diketones or their monoenol ether or vinyl halide derivatives (41-46). 

In the alkylation of enolate anions, a mixture of mono- and polyalky lation produets is usually obtained, and when enolization of a di-a-methylene ketone is possible toward both sides, a mixture of di-a- and a,a -dialkylation products ean be expeeted. Thus the enamine alkylation sequenee beeomes partieularly attractive when eontrolled monoalkylation is imperative beeause of difficulties in separation of a mixture of alkylation produets. One of its first synthetie applications was in the reaetions of /8-tetralones with alkyl halides. Yields in exeess of 80% were usually found 238-243) in these reaetions, which make valuable intermediates for steroid and diterpene syntheses more aecessible. 

The formation of bicyclic imines (263,264) from piperidine enamines and y-bromopropyl amines may appear at first sight to be a simple extension of the reactions of enamines with alkyl halides. However, evidence has been found that the products are formed by an initial enamine exchange, followed by an intramolecular enamine alkylation. Thus y-bromodiethylamino-propane does not react with piperidinocyclohexene under conditions suitable for the corresponding primary amine. Furthermore, the enamine of cyclopentanone, but not that of cyclohexanone, requires a secondary rather than primary y-bromopropylamine, presumably because of the less favorable imine to enamine conversion in this instance. 

A fundamental problem in the alkylation of enamines, which is inherent in the bidentate system, is the competition between the desired carbon alkylation and attack at the nitrogen. With unactivated alkyl halides (3,267), this becomes especially serious with the enamines derived fromcycloheptan-one, cyclooctanone, cyclononanone, and enamines derived from aldehydes. Increasing amounts of carbon alkylation are found with the more reactive allyl and benzyl halides (268-273). However, with allyl halides one also observes increasing amounts of dialkylation of enamines. 

The problem of nitrogen alkylation of enamines, which one encounters with alkyl halides, is of no consequence in alkylations with positively activated olefins, since the generation of amonium salts can be expected to be reversible in these cases. Thus such enamine alkylations are obviously attractive to the synthetic chemist. Their particular importance, however, arises from avoidance of the serious obstacles often found with parallel enolate anion reactions. 

In the arylations of enamines with very reactive aryl halides (352,370) such as 2,4-dinitrochlorobenzene, the closely related mechanistic pathway of addition of the enamine to the aromatic system, followed by elimination of halide ion, can be assumed. The use of n-nitroarylhalides furnishes compounds which can be converted to indolic products by reductive cycliza-tion. Less reactive aryl halides, such as p-nitrochlorobenzene, lead only to N-arylation or oxidation products of the enamines under more vigorous conditions. 

Enamines 1 are useful intermediates in organic synthesis. Their use for the synthesis of a-substituted aldehydes or ketones 3 by reaction with an electrophilic reactant—e.g. an alkyl halide 2, an acyl halide or an acceptor-substituted alkene—is named after Gilbert Stork. 

The jS-position of enamines is highly nucleophilic and may react with alkyl halides, acyl chlorides or anhydrides, or with Michael addition substrates to give carbon-carbon bonds as shown in the examples (1). 

Kim and coworkers introduced silyl radical mediated addition of alkyl radical to silyloxy enamine 76. The silyloxy enamine moiety is readily accessible from a variety of functionalities. The mechanistic concept is illustrated in the Scheme 12 and involves the addition of R radical to 76 to give the radical adduct 77 and the subsequent homolytic cleavage of N-O bond to yield the desired product 78 and a silyloxy radical 79. The latter undergoes 1,2-phenyl migration to give the silyl radical 80 that abstracts halogen from the alkyl halide to regenerate the R radical. 

Organotin enamines can be prepared by treating organotin halides with the lithium or magnesium derivatives of enamines, and also by treating distannazanes with tin enolates (222,223). 

When enamines are treated with alkyl halides, an alkylation occurs that is analogous to the first step of 12-14. Hydrolysis of the imine salt gives a ketone. Since the enamine is normally formed from a ketone (16-12), the net result is alkylation of the ketone at the a position. The method, known as the Stork enamine reaction is an alternative to the ketone alkylation considered at 10-105. The Stork method has the advantage that it generally leads almost exclusively to monoalkylation of the ketone, while 10-105, when applied to ketones, is difficult to stop with the introduction of just one alkyl group. Alkylation usually takes place on the less substituted side of the original ketone. The most commonly used amines are the cyclic amines piperidine, morpholine, and pyrrolidine. 

Primary and secondary halides do not perform well, mostly because N-alkylation becomes important, particularly with enamines derived from aldehydes. An alternative method, which gives good yields of alkylation with primary and secondary halides, is alkylation of enamine salts, which are prepared by treating an imine with ethylmagnesium bromide in THF ... 

The imines are prepared by 16-12. The enamine salt method has also been used to give good yields of mono a alkylation of a,P-unsaturated ketones. Enamines prepared from aldehydes and butylisobutylamine can be alkylated by simple primary alkyl halides in good yields. N-alkylation in this case is presumably prevented by steric hindrance. 

The reaction of enamines with ketenes can be conveniently carried out by generating the ketene in situ from an acyl halide and a tertiary amine. 

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