Allylic halides conversion

Allylic alcohols may also be formed from their corresponding halides by reaction with either peracids222 or potassium superoxide and a crown ether223. This latter methodology has been used in the synthesis of a polyether antibiotic, containing an allylic alcohol and a spiroacetal, where other methods have failed223. During allylic halide conversion, allylic... 

Halogen atoms can be stereoselectively introduced by ring-opening of y-azir-idinyl-a,P-enoates (Scheme 2.39). Treatment of 149 with diethylaminosulfur tri-fluoride (DAST) results in stereospecific ring-opening to yield fluorinated derivative 150 [59]. A related stereoselective conversion of y-aziridinyl-a,P-enoates 151 into allyl halides 152 by use of lithium halide in the presence of Amberlyst 15 was also reported recently [60]. 

For a review of the conversion of allylic alcohols to allylic halides, see Magid, R.M. 

As complex 67 outperforms the Fe(0)-ate complexes in rate and yield, shown in the reaction of cyclooctenyl bromide with PhMgBr (full conversion complex 67 <20 min, 81% yield, 38 18 h, 39% yield), it was shown that both Fe(0)-ate and Fe (—2)-ate complexes should be intermediates in cross-coupling reactions, but the major contribution should be made by the route emanating from Fe(—2)-com-plexes. The superiority of Fe(—2)-ate complexes was also shown in the stoichiometric insertion of 67 into allylic halides, which proceeded much faster (<5 min) than with any higher valent iron complex (hours or days). 

Stille coupling (12, 56).1 The key step in a synthesis of (E)-neomanoalide (4) involves palladium-catalyzed coupling of an allyl halide with an a-stannylfuran. Thus 1 and 2 couple in the presence of Pd(dba)2 and P(C6H5), to form 3 as a 1 1 mixture of (E)- and (Z)-isomers in 66% yield. Conversion of 3 to 4 involves reduction (DIBAH) and selective singlet oxygen oxidation of a 2-silylfuran to a butenolide. 

The simple procedure for the carbonylation of allyl halides has been extended in the high yielding solid-liquid two-phase conversion of allyl phosphates into amides (60-80%) under the influence of a rhodium carbonyl cluster in the presence of primary or secondary amines (Scheme 8.8). A secondary product of the reaction is the allylamine, the concentration of which increases as the pressure of the carbon monoxide is reduced, such that it is the sole product (ca. 80%) in the absence of carbon monoxide [28],... 

The first reported radical reaction promoted by tellurium reagent was probably the conversion of allylic halides into the coupled 1,5-dienes by treatment with telluride anions. The reaction, which gives the best results when employing the reagent prepared in situ from elemental tellurium and lithium triethylborohydride, proceeds through the intermediacy of the thermally unstable bis-allylic telluride followed by extrusion of tellurium and coupling of the formed allylic radicals. 

Catalyst screening experiments resulted in the discovery that copper(salen) complex 33 was a highly effective catalyst for the conversion of alanine derivative 16b into (f )-a-methyl phenylalanine 17 under the conditions shown in Scheme 8.16. The presence of just 1 mol% of catalyst 33 was sufficient to induce the formation of compound 17 with up to 92% ee and in >70% yield [33]. Allyl bromide, 1-chloromethylnaphthalene and ethyl iodide also reacted with substrate 16b to give the corresponding (H)-a-methyl a-amino acids in the presence of 2 mol % of complex 33 [34], Complex 33 also catalyzed the asymmetric mono-alkylation of glycine-derived substrate 34 by benzylic or allylic halides, to give (H)-a-amino acid derivatives 35 with 77-81% ee. and in greater than 90% yield, as shown in Scheme 8.17. 

The allylic halide needed for the alkylation is easily made by some aldol or Wittig-style reaction to give 63 followed by reduction and conversion of OH to Br. Alkylation of phenols (p a 10) with allylic halides is very easy as a weak base such as carbonate is enough and the Claisen rearrangement merely requires heating.15... 

A particularly simple variation of this reaction has been developed (47, 48) in which the catalytic nickel species is formed in situ by reduction of nickel chloride with a manganese -iron alloy in the presence of thiourea. Allyl halide is added and at the same time acetylene and carbon monoxide are bubbled through the methanolic solution. Conversion is almost complete and yields of ar-methyl-2,5-dienoate of up to 80% have been claimed. 

The conversion of halides into azides has been reviewed recently197-199 and the reader is directed to these sources for further detail. In general, alkyl and allylic halides are readily... 

Indium-mediated Barbier-type coupling between carbonyl compounds and allyl halides has been revealed to proceed effectively in diverse reaction media. Even under solvent-free conditions, allylation works well, although no reaction is observed with benzyl bromide and a-halo carbonyl compounds.59 Various aldehydes react with allyl bromide mediated by indium in liquid carbon dioxide to give homoallylic alcohols (Scheme 1). In contrast to the corresponding neat allylation, the liquid C02-mediated reaction can allylate solid aldehydes successfully.60 Indium-mediated allylations of carbonyl compounds with allyl bromide proceed in room temperature ionic liquids. In [bmim][BF4] and [bmim][PF6] (bmin l-butyl-3-methylimidazolium), the desired homoallylic alcohols are formed with good levels of conversion.61 Homoallyllic alcohols are also prepared by the reaction of resin-bound aldehydes (Equation (l)).62... 

Hydroxymethylation of organic halides can bt effected by metal-catalyzed cross-coupling with the Grignard reagent (diisopropoxymcthylsilyl)methylmagnesium chloride (1) followed by oxidation. This two-step process i- particularly useful for regio- and ster-eocontrolled conversion of vinyl halides into al.ylic alcohols and of allylic halides into homoallylic alcohols. ... 

The transformation of an allylic alcohol to an allylic halide (equation 5) or the reverse reaction normally leads to a mixture of isomers of direct and allylic substitution products. Only when tertiary allylic alcohols are employed or a rearrangement leads to extended conjugation of double bonds does a transposition of functionality occur predominantly While a number of procedures have been developed for the conversion of allylic alcohols to halides without rearrangement, there seems to be only one reaction where a cleanly rearranged product is obtainable in a substitution of a primary or secondary allylic (and propargylic) hydroxy group to a chloride, that is by thionyl chloride in ether, probably by a cyclic SNi process. The regioselectivity is worse in other solvents and is lost in the presence of a base. In accordance with the mechanism it is a syn facial substitution, as has been demonstrated in cyclic cases (equa-... 

In Scheme 50 it can be seen that the reaction can be used for the conversion of an allylic halide to an allylically shifted formyl group.A 1,1-dithio-1,3-butadiene system, synthesized via rearrangement of the ylide, is also accessible by a different kind of 2,3-sigmatropic rearrangement involving a nucleophilic carbene intermediate (Scheme 52). The same type of rearrangement has found synthetic application in a bakkenolid A synthesis. ... 

The conversion of cyclic a-halo ketones into amino-substituted allyl halides 8 can be facilitated by the use of titanium(IV) chloride as dehydrating reagent." The ring closure into cyclic iminium... 

In contrast to allyl halides substituted with one ASG, the cyclopropanation reaction proceeds relatively smoothly when a second ASG is present. Generally, the best results are obtained with sodium borohydride, sodium cyanide, potassium cyanide, and the sodium salts of alcohols or thiols as the nucleophilic species (Table 22, entries 3-26). Even spiroalkanes can be synthesized with the nucleophiles described above (Table 23). Examples illustrating this route are the conversion of a tetracyclic enamino ester with potassium cyanide to the corresponding electrophilic cyclopropane 2, and the facile one-pot synthesis of 1,1 -bis(hydroxymethyl)cyclo-propanes 3 by reduction of halogenated alkylidene malonates with lithium aluminium hydride. ... 

There are only two examples for the conversion of allyl halides to nonheteroatom-substituted vinylcyclopropanes. Firstly, vinyl- and (2-chlorovinyl)cyclopropanes can be prepared in yields of 18-77% by oxidative addition of a 3,3-dihalo-l-alkene onto a low-valent metal, e.g. Cu(0), thus forming a carbenoid which either reacts directly or after formation of the carbene with an alkene (see Houben-Weyl, Vol. E19b, pp673-674). ... 

Copper derivatives, in the form of cuprates (RCu(X)Li), are usually prepared in situ from lithium, magnesium or zinc compounds, by reaction with a Cu(I) sonrce snch as CnCN. They are often used to improve conversions using, for example, an acid chloride or an allylic halide as electrophile - a number of examples appear in other sections of this book. They are also nsefnl as the organometallic partners in some crosscoupling reactions (using cobalt catalysts). ... 

Chiral malonate esters have been used successfully in asymmetric cyclopropanations, as shown by the example in Scheme 6.39, part of a total synthesis of steroids such as estrone [143,144]. The key step in this sequence is an intramolecular Sn2 alkylation of the monosubstituted malonate. The rationale for the diastereoselec-tivity is shown in the illustrated transition structure. Note that the enolate has C2 symmetry, so it doesn t matter which face of the enolate is considered. The illustrated conformation has the ester residues syn to the enolate oxygens to relieve Al>3 strain, with the enolate oxygens and the carbinol methines eclipsed. The allyl halide moiety is oriented away from the dimethylphenyl substituent, exposing the alkene Re face to the enolate. The crude selectivity is about 90% as determined by conversion to the dimethyl ester and comparison of optical rotations [143], but a single diastereomer may be isolated in 67% yield by preparative HPLC [144], This reaction deserves special note because it was conducted on a reasonably large scale ... 

Phenylpolymagnesium halides show greater reactivity than do classical Grignard reagents. In the reaction with allyl bromide, conversion of... 

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