Allyl alcohols arylation

This reaction, as written, would be catalytic in palladium chloride but in practice it is only partially catalytic because some of the palladium salt is reduced in a side reaction. The side reaction is the arylation of the product allylaromatic compound and this occurs because the product is more reactive towards the "arylpalladium chloride than allyl chloride is. This side reaction, producing 1,3-diaryipropenes, can be minimized by using an excess of the allylic chloride. The allylation and allylic alcohol arylation are both tolerant of the same variations in structure and substituents as is the arylation reaction and therefore are of considerable synthetic utility. 

Ary lotion of allylic alcohols Aryl iodides and allylic alcohols undergo a Heck-ivpc reaction to form /3-ary l-a,/3-unsaturated alcohols in the presence of Pd(OAc)2 and P(C6H5)3 as catalysts and 1 equiv. of AgOAc to prevent isomerization to carbonyl compounds. 

Aryl and vinylic bromides and iodides react with the least substituted and most electrophilic carbon atoms of activated olefins, e.g., styrenes, allylic alcohols, a,p-unsaturated esters and nitriles. 

A catalytic enantio- and diastereoselective dihydroxylation procedure without the assistance of a directing functional group (like the allylic alcohol group in the Sharpless epox-idation) has also been developed by K.B. Sharpless (E.N. Jacobsen, 1988 H.-L. Kwong, 1990 B.M. Kim, 1990 H. Waldmann, 1992). It uses osmium tetroxide as a catalytic oxidant (as little as 20 ppm to date) and two readily available cinchona alkaloid diastereomeis, namely the 4-chlorobenzoate esters or bulky aryl ethers of dihydroquinine and dihydroquinidine (cf. p. 290% as stereosteering reagents (structures of the Os complexes see R.M. Pearlstein, 1990). The transformation lacks the high asymmetric inductions of the Sharpless epoxidation, but it is broadly applicable and insensitive to air and water. Further improvements are to be expected. 

When allylic alcohols are used as an alkene component in the reaction with aryl halides, elimination of /3-hydrogen takes place from the oxygen-bearing carbon, and aldehydes or ketones are obtained, rather than y-arylated allylic alcohoIs[87,88]. The reaction of allyl alcohol with bromobenzene affords dihydrocinnamaldehyde. The reaction of methallyl alcohol (96) with aryl halides is a good synthetic method for dihydro-2-methylcinnamaldehyde (97). 

The alkenyloxirane 126 in excess reacts with aryl and alkenyl halides or triflates in the presence of sodium formate to afford the allylic alcohol 127[104], Similarly, the reaction of the alkenyloxetane 128 gives the homo-allylic alcohol 130[105]. These reactions can be explained by insertion of the double bond in the Ar—Pd bond, followed by ring opening (or /3-eliraination) to form the allylic or homoallylic alkoxypalladium 129, which is converted into the allylic 127 or homoallylic alcohol 130 by the reaction of formate. The 3-alkenamide 132 was obtained by the reaction of the 4-alkenyl-2-azetizinone 131 with aryl iodide and sodium formate [106]. 

The unconjugated alkenyl oxirane 133 reacts with aryl halides to afford the arylated allylic alcohol 134. The reaction is explained by the migration of the Pd via the elimination and readdition of H—Pd—1[107]. 

Muzart et al. described the coupling of aryl iodides and bromides with allylic alcohols to give the corresponding (3-arylated carbonyl compounds [87]. Calo et al... 

The method is not restricted to secondary aryl alcohols and very good results were also obtained for secondary diols [39], a- and S-hydroxyalkylphosphonates [40], 2-hydroxyalkyl sulfones [41], allylic alcohols [42], S-halo alcohols [43], aromatic chlorohydrins [44], functionalized y-hydroxy amides [45], 1,2-diarylethanols [46], and primary amines [47]. Recently, the synthetic potential of this method was expanded by application of an air-stable and recyclable racemization catalyst that is applicable to alcohol DKR at room temperature [48]. The catalyst type is not limited to organometallic ruthenium compounds. Recent report indicates that the in situ racemization of amines with thiyl radicals can also be combined with enzymatic acylation of amines [49]. It is clear that, in the future, other types of catalytic racemization processes will be used together with enzymatic processes. 

With 1-2 mol% of 64b, racemic mixtures of aryl-alkyl carbinols 86 [103], propargylic [104] and allylic alcohol [105] 88 and 87, respectively, were resolved (Fig. 43). The best selectivities were attained for aryl-alkyl-carbinols 86, where the unreacted isomer was obtained with excellent ees after 55% conversion, while propargyl alcohols 88 required clearly higher conversions for high ees in the remaining starting material [106]. 

Overman LE, Owen CE, Pavan MM, Richards CJ (2003) Catalytic asymmetric rearrangement of allylic N-aryl trifluoroacetimidates. A useful method for transforming prochiral allylic alcohols to chiral allylic amines. Org Lett 5 1809-1812... 

Related reactions, that have been catalysed by NHC/Pd systems, are the intramolecular Mizoroki-Heck using catalysts formed in situ from imidazolium salts and a Pd(0) source [69], and the arylation of allylic alcohols by a benzothiazole-Pd complex [70,71] (Scheme 6.14). 

The majority of catalytic enantioselective allylation reactions involve the chiral Lewis-acid-catalysed additions of allylsilanes or allylstannanes to carbonyl compounds. Monothiobinaphthol has been used by Woodward et al. as a chiral promoter in the enantioselective catalytic allylation of aryl ketones with impure Sn(allyl)4, prepared from allyl chloride, air-oxidised magnesium and SnCl4. Therefore, the allylation of arylketones in these conditions was achieved very efficiently, since the corresponding allylic alcohols were formed in... 

Organozinc reagents have been used in conjunction with a-bromovinylboranes in a tandem route to Z-trisubstituted allylic alcohols. After preparation of the vinylborane, reaction with diethylzinc effects migration of a boron substituent with inversion of configuration and exchange of zinc for boron.176 Addition of an aldehyde then gives the allylic alcohol. The reaction is applicable to formaldehyde alkyl and aryl aldehydes and to methyl, primary, and secondary boranes. 

Table 2 Reaction of an orf/m-substituted aryl iodide with an allylic alcohol in the presence of K2C03, Pd(OAc)2 and norbomenc.1...

General procedure for the reaction of an o-substituted aryl iodide with an allylic alcohol. Synthesis of biphenyls containing an oxoalkyl chain. 

Aryl alcohol oxidase from the ligninolytic fungus Pleurotus eryngii had a strong preference for benzylic and allylic alcohols, showing activity on phenyl-substituted benzyl, cinnamyl, naphthyl and 2,4-hexadien-l-ol [103,104]. Another aryl alcohol oxidase, vanillyl alcohol oxidase (VAO) from the ascomycete Penicillium simplicissimum catalyzed the oxidation of vanillyl alcohol and the demethylation of 4-(methoxymethyl)phenol to vanillin and 4-hydro-xybenzaldehyde. In addition, VAO also catalyzed deamination of vanillyl amine to vanillin, and hydroxylation and dehydrogenation of 4-alkylphenols. For the oxidation of 4-alkylphenol, the ratio between the alcohol and alkene product depended on the length and bulkiness of the alkyl side-chain [105,106]. 4-Ethylphenol and 4-propylphenol, were mainly converted to (R)-l-(4 -hydroxyphenyl) alcohols, whereas medium-chain 4-alkylphenols such as 4-butylphenol were converted to l-(4 -hydroxyphenyl)alkenes. 

Alkyl halides and triflates, alkane reduction, 27-32 alkyl halides, 28-31 a-halocarbonyl compounds, 31 vinyl and aryl halides and triflates, 32 Alkynes, alkane reduction, 45-46 Allyl acetates, reduction of, 51 Allyl alcohols ... 

The allylic alcohols 41 derived from the propynols 40 by either a regioselective Pd-catalysed hydroarylation or hydrovinylation are readily cyclised to 4-aryl or 4-vinyl 2//-chromenes in high yield (Scheme 27) <00EJO4099>. 

Carbon monoxide rapidly inserts into the carbon—zirconium bond of alkyl- and alkenyl-zirconocene chlorides at low temperature with retention of configuration at carbon to give acylzirconocene chlorides 17 (Scheme 3.5). Acylzirconocene chlorides have found utility in synthesis, as described elsewhere in this volume [17]. Lewis acid catalyzed additions to enones, aldehydes, and imines, yielding a-keto allylic alcohols, a-hydroxy ketones, and a-amino ketones, respectively [18], and palladium-catalyzed addition to alkyl/aryl halides and a,[5-ynones [19] are examples. The acyl complex 18 formed by the insertion of carbon monoxide into dialkyl, alkylaryl, or diaryl zirconocenes may rearrange to a r 2-ketone complex 19 either thermally (particularly when R1 = R2 = Ph) or on addition of a Lewis acid [5,20,21]. The rearrangement proceeds through the less stable... 

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