Allyl halides acylation

Codeposition of silver vapor with perfluoroalkyl iodides at -196 °C provides an alternative route to nonsolvated primary perfluoroalkylsilvers [272] Phosphine complexes of trifluaromethylsilver are formed from the reaction of trimethyl-phosphme, silver acetate, and bis(trifluoromethyl)cadmium glyme [755] The per-fluoroalkylsilver compounds react with halogens [270], carbon dioxide [274], allyl halides [270, 274], mineral acids and water [275], and nitrosyl chloride [276] to give the expected products Oxidation with dioxygen gives ketones [270] or acyl halides [270] Sulfur reacts via insertion of sulfur into the carbon-silver bond [270] (equation 188)... 

Allylation of acyloyl-imidazoles and pyrazoles61 with allyl halide mediated by indium in aqueous media provides a facile regioselective synthesis of P, y-unsaturated ketones (Scheme 11.1), which has been applied to the synthesis of the monoterpene artemesia ketone. The same product can be obtained by indium-mediated allylation of acyl cyanide (Eq. 11.35).62 Samarium, gallium, and bismuth can be used as a mediator for the allylation of nitrones and hydrazones to give homoallylic hydroxylamine and hydrazides in aqueous media in the presence of Bu4NBr (Scheme 11.2).63 The reaction with gallium and bismuth can be increased dramatically under microwave activation. 

In the Pd-catalyzed cross-coupling reactions of acylzirconocene chlorides with allylic halides and/or acetates (Section 5.4.4.4), the isolation of the expected p,y-unsaturated ketone is hampered by the formation of the a, P-un saturated ketone, which arises from isomerization of the p,y-double bond. This undesirable formation of the unsaturated ketone can be avoided by the use of a Cu(I) catalyst instead of a Pd catalyst [35], Most Cu(I) salts, with the exception of CuBr - SMe2, can be used as efficient catalysts Thus the reactions of acylzirconocene chlorides with allyl compounds (Table 5 8 and Scheme 5 30) or propargyl halides (Table 5.9) in the presence of a catalytic amount (10 mol%) of Cu(I) in DMF or THF are completed within 1 h at 0°C to give ffie acyl--allyl or acyl-allenyl coupled products, respectively, in good yields. ill... 

These copper reagents do not react with epoxides, but they undergo SN2 reactions with allylic halides (equation II). These reagents also couple with acyl... 

Alkylation of P-dicarbonyl compounds and p-keto esters occurs preferentially on the carbon atom, whereas acylation produces the 0-acyl derivatives (see Chapter 3). There are indications that C- and 0-alkylated products are produced with simple haloalkanes and benzyl halides, but only C-alkylated derivatives are formed with propargyl and allyl halides [e.g. 90]. Di-C-alkylation frequently occurs and it has been reported that the use of tetra-alkylammonium 2-oxopyrrolidinyl salts are more effective catalysts (in place of aqueous sodium hydroxide and quaternary ammonium salt) for selective (-90%) mono-C-alkylation of p-dicarbonyl compounds [91]. 

The added advantage of the C (1 )-stannylated glycals is their abUity to participate in palladium-catalyzed coupling reactions with organic halides, a process independently reported by Beau [75] and Friesen [81]. Vinyl stannane 237 can be benzylated, allylated or acylated provided that appropriate catalysts are used [75,77] and representative examples are given in Scheme 59. The C-arylation of... 

Another clear example of an acetylene insertion reaction was reported by Chiusoli (15). He observed that allylic halides react catalytically with nickel carbonyl in alcoholic solution, in the presence of CO and acetylene, to form esters of cis-2,5-hexadienoic acid. The intermediate in this reaction is very probably a 7r-allylnickel carbonyl halide, X, which then undergoes acetylene insertion followed by CO insertion and alcoholysis or acyl halide elimination (35). Acetylene is obviously a considerably better inserting group than CO in this reaction since with acetylene and CO, the hexadienoate is the only product, whereas, with only CO, the 3-butenoate ester is formed (15). [See Reaction 59]. 

The 3-oxo-2//-furans (260) obtained from the reaction of a-halogenoacyl halides with /3-ketonic esters at -20 °C show no tendency to enolize to the hydroxyfurans (261) but rather behave as unsaturated ketones (Scheme 71) (73RTC731). 2,4-Dialkylfurans (262) are obtained by condensation of acyl halides with allyl halides catalyzed by aluminum chloride (73KGS1434). The acid catalyzed condensation of 2-chlorocyclopentanone with dimethyl /3-oxoglutarate leads to the furan ester (263) (77JHC711). 

Alkenylthiophenes and alkenylbenzo[6]thiophenes are most readily obtained by dehydration of the corresponding alkanols, obtained by reduction of the appropriate acyl derivatives (equation 12 Sections 3.14.2.4, 3.15.9.2.3). Allyl derivatives can be obtained by coupling a suitable allyl halide with the appropriate thienyllithium derivatives (Section 3.14.2.4). An unusual direct synthesis of 3-vinylthiophenes by ring closure of a-mercapto-aldehydes or -ketones with 1,3-butadienyl-l-triphenylphosphonium salts (386) gives satisfactory yields (equation 13) (75CJC3526). 

Acylcobaltate complexes, [RCCo(NO)(CO)P(C6H5)3] Li+ (2). These are prepared by reaction of RLi with 1 in THE They are stable at -40° but decompose at 25°. The acyl group is transferred to a, 3-enones, quinones, and allylic halides.1... 

An important reaction for synthesis of alkyl and dialkylethanoic acids (RX and R X are primary or secondary alkyl halides) dicarboxylic acids (RX = haloester) unsaturated acids (RX = an unsaturated halide, best for allylic halides) /3-keto acids (R = acyl chloride) (see Sections 18-8C and 18-8D). 

Acylation of allylic halides 262 (X = Cl, Br R1 = H, Me) by R2COCl (R = alkyl, cycloalkyl, chlorocycloalkyl etc.) results in formation of ( )-acylated products 263 and furans 264 stereoselectively394. 

Mesylates are used for Ni-catalysed reactions. Arenediazodium salts 2 are very reactive pseudohalides undergoing facile oxidative addition to Pd(0). They are more easily available than aryl iodides or triflates. Also, acyl (aroyl) halides 4 and aroyl anhydrides 5 behave as pseudohalides after decarbonylation under certain conditions. Sulfonyl chlorides 6 react with evolution of SO2. Allylic halides are reactive, but their reactions via 7t-allyl complexes are treated in Chapter 4. Based on the reactions of those pseudohalides, several benzene derivatives such as aniline, phenol, benzoic acid and benzenesulfonic acid can be used for the reaction, in addition to phenyl halides. In Scheme 3.1, reactions of benzene as a parent ring compound are summarized. Needless to say, the reactions can be extended to various aromatic compounds including heteroaromatic compounds whenever their halides and pseudohalides are available. 

A second mode of reaction is available in which unreacted allyl halide or 7r-allylnickel halide complex apparently reacts with either (XXII), or the acyl chloride formed from (XXII), and with (XXIII) to give the... 

Although there are several exceptions, perfluorinated vinylzinc reagents react only slowly with allyl or acyl halides. Transmetallation of the vinyl zinc reagents to copper(I) halides provides high yields of vinylcopper reagents... 

OxazoIones are alkylated at position 4 by alkyl halides, allyl halides and electrophilic alkynes, such as methyl propiolate (equation 36). In contrast, 2-phenyloxazolones react with methyl vinyl ketone at both C(4) and C(2) to yield a mixture of Michael adducts (equation 37). If the phenyl substituent is replaced by the bulky 2,4,6-trimethylphenyl group the addition is directed exclusively to C(4) (81CB2580). Alkylation of 5(4//)-oxazolones is a key step in the synthesis of ketones from a-amino acids (Scheme 16). The outcome of this sequence is the union of the electrophilic fragment R3 with the group R2CO the amino acid thus functions as the equivalent of an acyl anion (78AG(E)450). 

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