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Alkyl hahde amines from

In 1991, Kessar and coworkers demonstrated that the kinetic barrier could be lowered by complexing the tertiary amine with BF3, snch that i-BuLi is able to deprotonate the ammoninm compound, which can be added to aldehydes and ketones as shown by the example in Scheme 4a. Note the selectivity of deprotonation over vinyl and allyl sites. A limitation of this methodology is that the ylide intermediate does not react well with alkyl hahde electrophiles. To get aronnd this, a seqnence that begins with the stannylation and decomplexation shown in Scheme 4b was developed. The stannane can be isolated in 94% yield (Scheme 4b) and snbseqnently snbjected to tin-lithium exchange to afford an unstabilized lithiomethylpiperidine that is a very good nucleophile. However, isolation of the stannane is not necessary and a procedure was devised in which the amine is activated with BF3, deprotonated, stannylated, decomplexed from BF3 with CsF, transmetalated back to lithium and alkylated, all in one pot (Scheme 4c). ... [Pg.1007]

A number of syntheses of primary amines from reagents other than potassium phthal-imide has been described (Review Reference 46). Sodium diformylamide is a convenient substitute. It is alkylated in DMF or acetonitrile by adding an alkyl hahde or tosylate and the products are decomposed by adding dilute hydrochloric acid to give alkylamine hydrochlorides in excellent yields (equation 15). ... [Pg.540]

The alkylation of neutral amines by hahdes is complicated from a synthetic point of view because of the possibility of multiple alkylation which can proceed to the quaternary ammonium salt in the presence of excess alkyl halide ... [Pg.155]

The reactivities of alkyl halides are in the sequence RI > RBr > RCl and MeX > EtX > PrX. Benzyl hahde reactions with tin do not require catalysts (equation 2). For less reactive halides, the catalysts and promoters employed include metals (sodium, magnesium, zinc, or copper), Lewis bases (amines, triorganophosphines and -stibines, alcohols, or ethers), iodides, and onium salts (R4MX). The use of tin-sodimn alloys can result in tri- or tetraorganotin products. Electrochemical synthesis has also been reported, e.g. the formation of R2SnX2 from the oxidation of anodic tin by RX in benzene solution and the formation of ILtSn from RI (R = Me or NCCH2CH2) and cathodic tin. [Pg.4873]

See other pages where Alkyl hahde amines from is mentioned: [Pg.201]    [Pg.314]    [Pg.635]    [Pg.59]    [Pg.24]    [Pg.821]    [Pg.19]    [Pg.29]    [Pg.207]    [Pg.636]    [Pg.746]    [Pg.591]   
See also in sourсe #XX -- [ Pg.760 ]



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