Allylation indium iodide

The most widely used preparative method of allylindium(m) or propargylindium(lll) compounds is the oxidative addition of metallic indium or indium(l) halides to allylic or propargyl substrates.4 26 27 Allylic bromides and iodides serve as good allylic sources without any other activation. In the case of allylic chlorides, a proper additive such as lithium iodide is required to promote the oxidative addition. Allylic indium compounds prepared by oxidative addition of metallic indium are considered to exist as the sesquihalide structure (allyl jImXj), which has been... 

In the past decade much effort in organoindium chemistry has been devoted to study of carbonyl allylation and aUylindation of carbon-carbon multiple bonds with allylic indium reagents. Apart from the conventional transmetalation of allyl-lifhium or aUyl Grignard reagents with indium(III) halides, a method widely used for preparation of allyhndium(III) compounds is the oxidative addition of metallic indium or indium(I) iodide to aUyhc substrates [3, 6]. Transmetalation of allylstan-nane with indium(III) chloride also gives allylindium(III) [7]. Allylindium(I) was recently prepared by transmetalation of allylmercury with metallic indium in water this compound is regarded as an intermediate in the allylation of carbonyl compounds in aqueous media [8]. A new method of preparation of allylic in-dium(III) reagents - reductive transmetalation of a 7r-allylpalladium(ll) complex with indium(I) salts has been reported this enables the use of a wide variety of allylic compounds and solvents [9]. 

Indium metal or indium iodide as a reducing agent can be used for umpol-ung of TT-allylpalladium. Araki reported that allylic indium(III) reagents 333 are generated in situ by reductive transmetallation of r-allylpalladium with indium(I) salts [124]. Based on this reaction, nucleophilic allylation of benzaldehyde with allylic chlorides, alcohols, and esters occurred at room temperature in the presence... 

Another example is indium(0)-induced electron transfer to aziridines 270 incorporating allyl iodide moieties (Scheme 2.66). Treatment with indium(O) in MeOH at reflux gave the corresponding chiral (E)-dienylamines 271 in excellent yields [98]. It should be noted that indium was found to be more effective for this transformation than other metals such as zinc, samarium, and yttrium. 

Indium(I) iodide serves as a two electron reducing agent to promote a Ni-catalyzed allylation of benzaldehyde with 1,3-dienes [23]. In the presence of a catalytic amount of Ni(acac)2 and a stoichiometric amount of Ini, 1,3-butadiene reacts with 2 equiv. of benzaldehyde to provide a mixture of a 1,4-diol 28 and 1,6-diol 29 and/or with 1 equiv. of benzaldehyde to give 27 (Eq. 8). The product distribution of 27-29 markedly depends on the solvent, the ligand, and the additive employed (Table 2). The combination of Ni(acac)2, PPI13, and 3 equiv. of water in DMI provides the 1,4-diol 28 as the major product (run 1). Under similar conditions, dppb dramatically changed the reaction course and the mono-allylation product 27 is produced exclusively (run 2). In contrast to these, the reaction in dry THF provides the 1,6-diol 29 in excellent yield (rim 3). 

A tandem enolate-arylation-allylic cyclisation, in which an essential z-butyldimethylsilyl ether protecting group delays the cyclisation step until the Pd-catalysed arylation is complete, enables 1-vinyl-l//-[2]benzopyrans 54 to be prepared from 2-bromobenzaldehyde (Scheme 32) <00CC1675>. 4-Substituted isochromans 55 are formed from aldehydes by a Pd-catalysed termolecular queuing cascade. The sequence involves cyclisation of an aryl iodide onto a proximate alkyne followed by an allene insertion. Transmetallation with indium then allows addition to the aldehyde (Scheme 33) . 

Grigg and co-workers described a novel three-component indium-palladium-mediated allylation reaction [67]. As exemplified by Eq. 14.16, 3,3-disubstituted oxi-ndole derivative 133 was obtained smoothly from phenyl iodide, the easily available isatin imine 132 and 1,2-propadiene (131). Excellent levels of diastereoselectivity were obtained in this cascade reaction employing imines derived from enantiopure sulfmamides. 

The hemiacetals of (+)- and (-)-A -glyoxyloylborane-10,2-sultam 23a and 23b and their imines 23c and 23d reacted with allyl iodide in the presence of indium in DMF at 0 °C to give the corresponding a-hydroxy and a-amino camphor sultam derivatives 24a and 24b and 24c and 24d with high diastereoselectivites (86-90% de). Cleavage of the auxiliary then furnished a-hydroxy and ot-amino acids <02JCS(P1)1314>. 

When reacted with allyl/propargyl bromide in the presence of indium and sodium iodide, isatins undergo efficient allylation/propargylation to afford the corresponding 3-substituted 3-hydroxy-oxindoles (Scheme 50).206 Indium-mediated Barbier reaction of ninhydrin with benzyl bromide in DMF gives 45 and O-benzylated compound 46. Similarly, the reaction of isatin with allyl bromide affords 47 and 48.207... 

The 1,2-addition of allyl iodide to cyclic and acyclic a,/ -unsaturated carbonyl compounds has been achieved by using indium and indium trichloride. The reactivities of a,/3-unsaturated carbonyl compounds depend upon their structure. The reaction of ketones smoothly undergoes in THF or DMF. In the case of cyclic ketones, however, the solvent plays a crucial role, where much improved yields have been obtained in DMF than in THF (Equation (49)).236 Indium-mediated 1,2-allylation of /3-bromoacrolein produces homoallylic alcohol derivatives (Equation (50)), which can be transformed to cyclopentanones by a Pd-catalyzed cyclization.237,238... 

Allyl and benzyl bromides react with a,/ -unsaturated nitriles in the presence of indium(i) iodide under sonication to produce the corresponding allylated and benzylated imines, involving exclusive addition of the allyl/benzyl group to the nitrile moiety (Equation (63)).273 The reaction of allylindium reagents with methyl cyanoacetates affords the corresponding allylation-enamination products (Equation (64)).27 l-Acyl-l,2-dihydropyridines are prepared by indium-mediated allylation of 1-acylpyridinium salts (Equation (65)).275 Quinoline and isoquinoline activated by... 

Indium metal in water reduces a-halocarbonyl compounds and benzyl iodides to the corresponding dehalogenated products in excellent yields under sonication, though simple alkyl and aryl iodides remain inert under these conditions (Equation (97)).379 Similar dehalogenation in micellar systems in the presence of a catalytic amount of sodium dodecyl sulfate in water affords the corresponding parent carbonyl compounds in excellent yields (Equation (98)).380 The allylic iodide or acetate is reduced by indium into the corresponding 3-methylcephems and 3-methylenecephams in an aqueous system. The latter are converted into the former quantitatively under basic conditions (Scheme 110).381... 

Vinyl halides add to allylic amines in the presence of Ni(cod)2 where cod=l, 5-cyclooctodine, followed by reduction with sodium borohydride. Aryl iodides add to alkynes using a platinum complex in conjunction with a palladium catalyst. A palladium catalyst has been used alone for the same purpose, and the intramolecular addition of a arene to an aUcene was accomplished with a palladium or a GaCl3 catalyst, " AUcyl iodides add intramolecularly to aUcenes with a titanium catalyst, or to alkynes using indium metal and additives. The latter cyclization of aryl iodides to alkenes was accomplished with indium and iodine or with Sml2. " ... 

Homoallyl alcohols. Indium(III) iodide catalyzes allylation of carbonyl... 

Indium-mediated coupling of allylic bromides with acyUmidazoles or -pyra-zoles in aqueous media gives the corresponding ketones (Scheme 8.46) [68]. Indium-mediated allylation of acyl cyanides with allyl halides in aqueous media affords a variety of /fy-urisaturalcd ketones (Scheme 8.47) [69]. Indium is effective in 2-pyridyl esters with allyl bromides or with iodide in pure water (Scheme 8.48) [70]. 

Cooper et al. reported that the cascade reaction of the palladium-catalyzed cyclization and the Barbier-type allylation of the 1,3-diene-aryl iodide 514, the aldehydes 515, and indium gave the heterocycles 516 in good yields (Scheme 154).220b The reaction proceeds through oxidative addition of a C—I bond of 514 to Pd(0) and subsequent insertion of a double bond of 517 to give the jr-allylpalladium intermediate 518. Transmetalation of the jr-allylpalladium 518 with indium leads to the allylindium complex 519, and the following reaction with the aldehydes 515 gives 516. 

AUylation and propargylation reactions. In the presence of the (Ph3P)4Pd catalyst, indium(I) iodide form organoindium(III) reagents with allylic halides and propargylic mesylates that react with carbonyl compounds in various solvents. 

Note that there are several modern versions of the Barbier reaction that use transition metals or their derivatives.Examples include indium metal, samarium iodide, and lead. An example using lead reacted benzaldehyde with allyl bromide in the presence of lead metal to give a 99% yield of 45.56 A retro-Barbier fragmentation has also been reported in which an alcohol was treated with 10 equivalents of bromine and 15 equivalents of potassium carbonate in chloroform to give a bromo ketone.5 ... 

Li and coworkers reported the conjugate addition of alkyl groups to enamides mediated by zinc in aq. NH4CI to generate a -amino acid derivatives (Eq. 4.73). No reaction was observed in the absence of water. Both secondary and tertiary alkyl groups such as linear (2-butyl, 2-propyl, 2-pentyl), cyclic (cyclohexyl, cyclopentyl, cycloheptyl), and bulky ones (tert-butyl) were all transferred to the substrate successfully. Even simple primary iodides and methyl iodide provided the desired products in good yields. Miyabe et al. as well as Jang and Cho reported the addition of alkyl radicals from alkyl iodide to a,p unsaturated ketones, esters, and nitriles mediated by indium in aqueous media. Indium-mediated Michael addition of allyl bromide to l,l-dicyano-2-arylethenes also proceeded well in aqueous medium. ... 

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