Barbier additions

Addition of (C2Hs)2Zn to RCHO.1 The diol 1, prepared by Barbier addition of CsHjMgBr (2 equiv.) to the acetonide of dimethyl (R,R)-tartrate,2 converts Ti(OC2H5)4 into the optically active spirotitanate 2. In the presence of 0.05-2.0 equiv. of 2, diethylzinc reacts with anisaldehyde in toluene at 0° to form the (R)-alcohol 3 (equation I). The enantioselectivity and the chemical yield increases with an increase in 2. Surprisingly, the enantioselectivity is reversed in reactions of the... 

Inanaga showed that the presence of HMPA also accelerates the Barbier addition of alkyl halides to ketones and significantly improves the yield of the adducts.14 He also found that HMPA was a useful additive in the Sml2-mediated synthesis of lactones from bromo esters and ketones (Scheme 2.5). Since Inanaga s pioneering work, the Barbier reaction employing Sml2 HMPA... 

In 1993, Molander found that in the presence of catalytic Fe(III) salts, Sml2 mediates intramolecular Barbier additions to esters to give cyclic ketones (or cyclic hemiketals, if they prove to be stable).135 Double addition to the ester is not observed, nor is reduction of the cyclic ketone product. This suggests that the tetrahedral intermediate, a samarium alkoxide of a cyclic hemiketal, is partially stable to the reaction conditions and the ketone group is not revealed until work-up. Molander found that both alkyl and allyl halides could be used in the additions (Scheme 5.83).135... 

The Sml2-mediated intramolecular Barbier addition to amides is less common Fadel reported the diastereoselective cyclisation of chloroimide 122,137 while Ha carried out an intramolecular Barbier addition to the carbonyl of cyclic imide 123 (Scheme 5.86).138... 

Curran described an efficient, approach to the BCD ring system of the penitrem indole alkaloids that exploits a Sml2-mediated radical-anionic sequence.11 Treatment of iodide 17 with Sml2 and HMPA gave 18, the product of radical cyclisation-intermolecular Barbier addition, in satisfactory yield (Scheme 6.6). 

Molander recognised the potential of the Sml2-mediated Barbier addition to esters for the initiation of sequential processes (Chapter 5, Section 5.4). Two types of cascade have been developed that involve nucleophilic acyl substitution the first type involves double intramolecular Barbier addition to an ester group (anionic-anionic sequences),17 and the second type consists of a Barbier addition to an ester followed by a carbonyl-alkene/alkyne cyclisation of the resultant ketone (anionic-radical sequences) (Scheme 6.12).18,19... 

The sequential nucleophilic substitution Barbier additions are controlled by the diflerent rates of reduction of the alkyl halides or the tether length, if the... 

Molander has also studied the Sml2-mediated double Barbier additions of alkyl dihalides to ketoesters.22,23 These impressive anionic-anionic, inter-molecular-intramolecular sequences require the use of Nil2 as an additive and irradiation with visible light and allow access to a range of bicyclic and tricyclic systems. The reactions proceed by reduction of the more reactive alkyl halide, intermolecular Barbier addition to the ketone, lactonisation and a second Barbier addition to the lactone carbonyl (Scheme 6.18).22... 

In a similar vein, allylic iodides and, to a lesser extent, bromides undergo Barbier addition to aldehydes in the presence of activated tin powder in THF (Table 29) [45]. The reaction is thought to involve a diallyltin dihalide intermediate. Similar results were obtained when diallyltin dibromide, prepared independently, was used for the addition. 

Table 29. Barbier additions of allyl halides/Sn to aldehydes.

The general scheme for the one-step Barbier addition reaction of alkenyl and benzylic halides with aliphatic or aromatic aldehydes is shown in Eq. (1). 

The processes used in the manufacture of morphine are believed to be still based on that described by the Scottish chemist Gregory,in 1833, with improvements devised by Anderson. A description has been published by Schwyzer, who also deals with the manufactme of codeine, narcotine, cotarnine, and the commercially important morphine derivatives, diamorphine (diacetylmorphine), and ethylmorphine (morphine ethyl ether). More recently Barbier has given an account of processes, based on long experience in the preparation of alkaloids from opium. Kanewskaja has described a process for morphine, narcotine, codeine, thebaine and papaverine, and the same bases are dealt with by Chemnitius, with the addition of narceine, by Busse and Busse, and by Dott. It is of interest to note that a number of processes for the extraction and separation of opium alkaloids have been protected by patent in Soviet Russia. ... 

Barbier conditions have been used to carry out a silicon-induced addition of perfluoroalkyl iodides to DMF to give stable hemiaminal intermediates, which give the perfluonnated aldehydes upon heating with sulfuric acid [47 (equation 38)... 

In a separate report, preparation of the lithium enolate of 31 in the presence of indium trichloride and benzaldehyde provided a 77% yield of 32 with complete trans selectivity however, sequential addition of indium trichloride and benzaldehyde provided Barbier-type products. Organotin enolates have also been used in a Darzens-type... 

There seems, however, to-day, to be overwhelming evidence that the French chemists were correct and that citronellol and rhodinol are two very similar, but chemically different, compounds, citronellol being represented by the formula (1) and rhodinol by formula (2). Considerable evidence of this is to be found in the work of Barbier and Locquin. Starting from the acetic esters of ordinary d-citronellol and rhodinol from oil of geranium or rose, they attached hydrogen chloride to the double bond, and obtained the same additive product according to the equations — ... 

Usually, in situ preparation in Barbier-type carbonyl additions are carried out with the bromides or chlorides even sterically blocked carboxylates, such as 2,4,6-trimethylbenzoic acid esters, can be used successfully15. The reactions are accelerated by ultrasound16,17. 

Mediated by Other Metals. In addition to the metals discussed above, other metals have been found to mediate the Barbier-Grignard-type conversions in water, but investigations on these metals are relatively limited. 

Cleghorn LAT, Cooper IR, Grigg R, MacLachlan WS, Sridharan V (2003b) Additive effects in palladium-indium mediated Barbier type allylations. Tetrahedron Lett 44 7969-7973... 

Recently, the iron-promoted Barbier-type addition of alkyl halides to aromatic aldehydes has been reported (Equation (26)).326 According to the proposed mechanism, the initial step is the formation of an alkyl radical, which can be reduced to the corresponding carbanion. This carbanion nucleophile can react, while coordinated to the iron pentacarbonyl complex, with the corresponding aldehyde. This stoichiometric method is limited with respect to substrate scope and yield. The same authors have also developed the Reformatsky-type addition of cr-halosub-stituted carbonitriles to aldehydes and ketones in the presence of iron pentacarbonyl.3... 

Additionally, various intra- and intermolecular iron-catalyzed Barbier-type reactions of organosamarium com-pounds and carbonyl electrophiles have been reported by Molander and co-workers. 

For the purpose of carrying out carbonyl addition reactions, allylstannanes can be prepared in situ from metallic tin and an allyl halide (Barbier conditions),259 for example, Equation (93).260... 

An electroreductive Barbier-type allyla-tion of imines (434) with allyl bromide (429) also occurs inaTHF-PbBr2/Bu4NBr-(Al/Pt) system to give homoallyl amine (436) (Scheme 151) [533]. The combination of Pb(II)/Pb(0) redox and a sacrificial metal anode in the electrolysis system plays a role as a mediator for both cathodic and anodic electron-transfer processes. The metals used in the anode must have a less positive anodic dissolution potential than the oxidation potentials of the organic materials in order to be present or to be formed in situ. In addition, the metal ion plays the role of a Lewis acid to form the iminium ion (437) by associating with imine (435) (Scheme 151). 

The same polymeric arenes that served as metallation catalysts in equation 119 can also be used for silylation in Barbier-type reactions (equation 131). The polymer is presumably converted to a lithium arene adduct that activates metallic lithium for metallation of the halogenated substrates, before addition of an electrophile to achieve the synthetic goal. Equations 132-135 illustrate some of the cases investigated. The products can be characterized by the usual spectroscopic methods . 

Additive Yieid(%) Pinacoi Barbier Recovery %) of 1-octanone... 

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