Alkylation allylic allylation

The migration aptitude iacreases ia the foHowiag order secondary alkyl < primary alkyl < allyl, ben2yl. 

Alkyl Allyl Carbonate R0C02CH2CH=CH2 (Chart 2) Formation... 

This reaction, which is named after W. Williamson, is the most important method for the synthesis of unsymmetrical ethers 3. For this purpose an alkoxide or phenoxide 1 is reacted with an alkyl halide 2 (with R = alkyl, allyl or benzyl). Symmetrical ethers can of course also be prepared by this route, but are accessible by other routes as well. 

Phthalic anhydride also shows the ability to inhibit thermal destruction of polyolefins [21]. Among the organometallic compounds may be quoted organotin compounds R2Sr(OR )2, where R2 means alkyl, aryl, or cycloalkyl OR means alkoxyl, acyl, or R2Sn(CH2COORi)2, where Rj—Ci—Cm means alkyl, allyl, or benzyl Ro represents chloro-, mono-, or triorga-notin mercaptans [22,23]. 

In the reaction of 88 with /(-phenethyl bromide, l-phenethyl-3-phenylpropyl methyl sulfoxide and bis-3-phenylpropyl sulfoxide, besides 3-phenylpropyl methyl sulfoxide are obtained118. Sulfoxides, bearing a /1-hydrogen to the sulfmyl function, give olefins upon thermolysis. Utilizing this reaction, Trost and Bridges120 alkylated benzyl phenyl sulfoxide, 3,4-methylenedioxybenzyl phenyl sulfoxide, phenylthiomethyl phenyl sulfoxide, phenylsulfinylmethyl phenyl sulfoxide and cyanomethyl phenyl sulfoxide with alkyl, allyl and benzyl halides and subjected these sulfoxides to thermolysis, obtaining olefins in one-pot processes. 

Ueno and coworkers10 have found that the facile displacement of sulfonyl group from a-alkylated allyl p-tolyl sulfones 18 by tri-n-butyltin radical in the presence of 2,2 -azobis[2-methylpropanenitrile] (AIBN) occurs smoothly in refluxing benzene (equation 11). In contrast, vinyl sulfones undergo the radical substitution reaction to give vinylstannanes in the presence of AIBN at a higher temperature11. 

Cooper(I) carboxylates give esters with primary (including neopentyl without rearrangement), secondary, and tertiary alkyl, allylic, and vinylic halides. A simple Sn mechanism is obviously precluded in this case. Vinylic halides can be converted to vinylic acetates by treatment with sodium acetate if palladium(II) chloride is present. ... 

Carboxylic acids can be alkylated in the a position by conversion of their salts to dianions [which actually have the enolate structures RCH=C(0")2 ] by treatment with a strong base such as LDA. The use of Li as the counterion is important, because it increases the solubility of the dianionic salt. The reaction has been applied to primary alkyl, allylic, and benzylic halides, and to carboxylic acids of the form RCH2COOH and RR"CHCOOH. This method, which is an example of the alkylation of a dianion at its more nucleophilic position (see p. 458),... 

R = H, Alkyl, R = H, Alkyl, Allyl, c-Alkenyl Reagent = EtgSiH, MegAl, TMS-allyl, 3-TMS-Cyclohexen (-penten) Lewis acid = TiCl4, SnCl4, SnBr4, TfOH Scheme 13 (Table 3)... 

With alkyl-, allyl-, benzyl-, or aryl-Grignard or lithium reagents 72 0,N-acetals 473 give the N,N-bis-silylated primary amines 474 in high yields these are converted by methanol into the free primary amines 44 and MeOSiMc3 13a [60] (Scheme 5.22). 

As a mechanistic hypothesis, the authors assumed a reduction of the Fe(+2) by magnesium and subsequent coordination of the substrates, followed by oxidative coupling to form alkyl allyl complex 112a. A ti—c rearrangement, followed by a syn p-hydride elimination and reductive elimination, yields the linear product 114 with the 1,2-disubstituted ( )-double bond (Scheme 29). This hypothesis has been supported by deuterium labeling experiments, whereas the influence of the ligand on the regioselectivity still remains unclear. 

Scheme 10.17 illustrates allylation by reaction of radical intermediates with allyl stannanes. The first entry uses a carbohydrate-derived xanthate as the radical source. The addition in this case is highly stereoselective because the shape of the bicyclic ring system provides a steric bias. In Entry 2, a primary phenylthiocar-bonate ester is used as the radical source. In Entry 3, the allyl group is introduced at a rather congested carbon. The reaction is completely stereoselective, presumably because of steric features of the tricyclic system. In Entry 4, a primary selenide serves as the radical source. Entry 5 involves a tandem alkylation-allylation with triethylboron generating the ethyl radical that initiates the reaction. This reaction was done in the presence of a Lewis acid, but lanthanide salts also give good results. 

Alkyl, allyl, and aryl bromides are dehalogenated mainly with the formation of R R dimers in the presence of polypyridyl complexes of the metals of Group VIII. It has been demonstrated that the complexes [Co(bpy)3] + 203-204 [Ni(bpy)3]2+,205 and [Ni(phen)3]2+206 catalyze the reductive dimerization of allyl and alkyl bromides in organic 203 205 206 and aqueous micellar 204 solution. 

E = alkyl, allyl, Ph, PhCH(OH) or alkyl-CH(OH) Nu = alkyl, Ph, alkoxy, or alkylthio... 

R=Ph, PhCH2, or EtOCOCH2 R1 = alkyl, allyl, benzyl, or aryl... 

Thioamide dianions (generated by the highly efficient reaction of iV-benzyl thioamides with 2 equiv. of BuLi) take place alkylation, allylation and silylat-ion selectively at the carbon atom adjacent to the nitrogen atom of the thioamide dianions (Scheme 38).77... 

Meyers lactams are widely used in synthesis of substituted synthons of interest and their functionalization is carried out under strong base conditions giving C-alkyl derivatives. Alkylation of bicyclic lactam 182 with electrophiles (alkyl, allyl, benzyl halides, chlorophosphonate), and a strong base (j-BuLi, LiHMDS, or KHMDS HMDS = hexamethyldisilazide) in THF at — 78 °C gave an endo-exo mixture of products where the major one is the rro/o-compound 183 in good yields. The ratios were determined by H NMR spectroscopy and are usually up to... 

Strong and weak bases Alkyl-, allyl-sulfonic acids... 

It must be stressed, however, that the methyl alkyl sulfoxide rule is not valid for alkyl benzyl and alkyl allyl sulfoxides (222-224), where the electronic, steric, and solvent effects exert influences on the chiroptical phenomena in a way that is difficult to rationalize. This rule was found to be satisfactory and was used for the assignment of absolute configurations of steroidal (200,201,225), penicillin (226), and amino acid (227-230) sulfoxides. 

In the solution proposed by Evans [25], however, the unsaturated ketone is condensed with the anion of an alkyl allyl ether, followed by a [3,3]-sigmatropic oxy-Cope type rearrangement (Scheme 5.22). In the retrosynthetic sense this means a [3,3]-sigmatropic rearrangement of the bis-enol form of the 1,6-dicarbonyl system. 

Name the following halides according to lUPAC system and classify them as alkyl, allyl, benzyl (primary, secondary, tertiary), vinyl or aryl halides ... 

The other ring contraction involves cleavage of the pjo idine ring under very mild conditions. Diazotization of 3-aminopyridinium salts (R = alkyl, allyl, aryl) gives lH-triazole-4-acraldehyde derivatives. A possible mechanism for the reaction is shown in Scheme 27. 

More recently, Landis et al. studied the polymerisation kinetics of 1-hexene with (EBI)ZrMe( t-Me)B(C5F5)3 64 as catalyst in toluene [EBI = rac-C2H4(Ind)2]. Catalyst initiation was defined as the first insertion of monomer into the Zr-Me bond, 65 (Scheme 8.30). Deuterium quenching with MeOD was used to determine the number of catalytically active sites by NMR. The time dependence of the deuterium label in the polymer was taken as a measure of the rate of catalyst initiation. This method also provides information of the type of bonding of the growing polymer chain to zirconium, as n-or sec-alkyl, allyl etc. Hexene polymerisation is comparatively slow, with high regio- and stereoselectivity there was no accumulation of secondary zirconium alkyls as dormant states [96]. 

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