Ketones Reformatsky reaction

Reformatski reaction Aldehydes and ketones react with a-bromo- fatty acid esters in the presence of zinc powder to give -hydroxy-esters which may be dehydrated to give a-, 0-unsaturated esters. a-Chloroesters will react if copper powder is used in conjunction with the zinc. 

The Reformatsky Reaction consists of the interaction of an ester of an a-halogeno-acid with an aldehyde, a ketone or another ester in the presence of zinc. For example, if a mixture of ethyl bromoacetate and benzaldehyde is heated with zinc, the latter undoubtedly first combines with the ethyl bromoacetate to form a Grignard-like reagent (reaction A), which then adds on to the benzaldehyde Just as a Grignard reagent would do (reaction B). The complex so formed, on acidification gives ethyl p-phenyl-p-hydroxy-propionate (reaction C). Note that reaction A could not satisfactorily be carried out using... 

Rearrangement of a,/B-epoxy ketones to ftdicarbonyl isomers, 307 Reductive alkylation, 97 Reductive cleavage of halo ethers, 264 Reductive degradation of 19-substitutional steroids, 277, 278 Reformatsky reaction, 139 Removal of the C-10 substituent in steroids. 272... 

The classical Reformatsky reaction consists of the treatment of an a-halo ester 1 with zinc metal and subsequent reaction with an aldehyde or ketone 3. Nowadays the name is used generally for reactions that involve insertion of a metal into a carbon-halogen bond and subsequent reaction with an electrophile. Formally the Reformatsky reaction is similar to the Grignard reaction. 

Both aldehydes and ketones react with the anion of ethyl trimethylsilyl-acetate to produce a/3-unsaturated esters in an alternative (13) to the Reformatsky reaction ... 

Non-Kolbe electrolysis of alicyclic p-hydroxy carboxylic acids offers interesting applications for the one-carbon ring extension of cyclic ketones (Eq. 35) [242c]. The starting compounds are easily available by Reformatsky reaction with cyclic ketones. Some examples are summarized in Table 13. Dimethylformamide as solvent and graphite as anode material appear to be optimal for this reaction. 

In the presence of a strong base, the ot carbon of a carboxylic ester can condense with the carbonyl carbon of an aldehyde or ketone to give a P-hydroxy ester, which may or may not be dehydrated to the a,P-unsaturated ester. This reaction is sometimes called the Claisen reaction,an unfortunate usage since that name is more firmly connected to 10-118. In a modem example of how the reaction is used, addition of tert-butyl acetate to LDA in hexane at -78°C gives the lithium salt of ferf-butyl acetate, " (12-21) an enolate anion. Subsequent reaction a ketone provides a simple rapid alternative to the Reformatsky reaction (16-31) as a means of preparing P-hydroxy erf-butyl esters. It is also possible for the a carbon of an aldehyde or ketone to add to the carbonyl carbon of a carboxylic ester, but this is a different reaction (10-119) involving nucleophilic substitution and not addition to a C=0 bond. It can, however, be a side reaction if the aldehyde or ketone has an a hydrogen. 

The indium-mediated aqueous Reformatsky reaction was used in the synthesis of a,a-difluoro- 3-hydroxy ketones (Eq. 8.93).236... 

A similar sequence starting with the acylation product (76) from metachlorophenylacetonitrile gives the halogenated tricyclic ketone 83. Condensation of that intermediate with ethyl bromoacetate in the presence of zinc (Reformatsky reaction) gives the hydroxyester 84. This product is then in turn dehydrated under acid conditions (85), saponified to the corresponding acid (86), and converted to the dimethyl-amide (87) by way of the acid chloride. The amide function is then reduced to the amine (88) with lithium aluminum hydride catalytic hydrogenation of the exocyclic double bond completes the synthesis of closiramine (89). This compound also exhibits antihistaminic activity. 

We felt the Reformatsky reaction was a worthwhile target because it is the most generally applicable method for converting aldehydes and ketones to ff-hydroxyesters(25). The improvements in yield and reaction time exceeded our expectations. Essentially quantitative conversion to the 0-hydroxyester was effected in a matter of a few minutes(26). The absence of other products, such as a, 0-unsaturated esters, resulting from dehydration, and dimers of the bromo ester and the carbonyl are probably the result of running... 

The 3,4-dihydrodiol of BcP was synthesized from 4-oxo-l,2,3,4-tetrahydro-BcP (15) by Method I (66). The ketone L was itself prepared from 4-oxo-l,2,3,4-tetrahydrophenanthrene via a multistep sequence entailing Reformatsky reaction with methyl bromocrotonate, dehydration of the resulting alcohol, isomerization to the aryl-butyric acid, and cyclization of its acid chloride with SnCl - Full... 

The procedure employed has been previously described by Cason and Rinehart,3 and is a modification of the standard Reformatsky procedure.9-10 The Reformatsky reaction, which has been reviewed elsewhere,9 has been widely employed with ketones, somewhat less frequently with aldehydes, and very seldom with a-alkyl aliphatic aldehydes. 

As a kind of nucleophilic addition reaction similar to the Grignard reaction, the Reformatsky reaction can afford useful ft-hydroxy esters from alkyl haloacetate, zinc, and aldehydes or ketones. Indeed, this reaction may complement the aldol reaction for asymmetric synthesis of //-hydroxy esters. 

Chiral //-hydroxylester 61 cannot be satisfactorily obtained through the reaction between a prochiral ketone and the enolate. It can, however, be synthesized via the chiral ligand-induced asymmetric Reformatsky reaction of ketones (Scheme 8-21). 

This procedure illustrates the use of lithio esters for the preparation of /3-hydroxy esters. Isopropyl and /-butyl /3-hydroxy-/8,/3-diphenylpropionate may be prepared in approximately 80% yields by using isopropyl or /-butyl acetates in place of ethyl acetate.2 This procedure is generally more convenient than the Reformatsky reaction for the preparation of such esters. Under similar conditions ethyl acetate may conveniently be condensed with various aldehydes or ketones to give the corresponding /8-hydroxy esters.4... 

In this reaction, the CH2C12/DMF solvent (9 1) suppresses the undesirable Claisen condensation and increases the yield of 2,2-difluoro-3-hydroxyesters. It is notable that high yields are obtained even with ketones and enolizable aldehydes, which do not undergo the Reformatsky reaction. 

Asymmetric intramolecular Reformatsky reactions/ The bromoacetates (1) of (3-hydroxy ketones undergo a Reformatsky-type reaction when treated with Sml2 to give (3-hydroxy-8-valerolactones (2). These products are useful in their own... 

Carbohydrate lactones have been used as the carbonyl reagent in the Reformatsky reaction. Thus, 2,3 5,6-di-O-cyclohexylidene-D-mannono-1,4-lactone [44, obtained by oxidation of the mannofuranose derivative (49)] reacted with ethyl bromoacetate and zinc to give the protected 2-deoxy-3-octulosonic acid ethyl ester (45a) in 69% yield (50). Ketonic hydrolysis with potassium hydroxide in aqueous methanol, followed by acidification and heating, afforded the 1-deoxyheptulose derivative 45b. Similarly, starting from compound 44, the 1-C-substituted allyl and propar-gyl lactols were prepared on reaction with allyl or propaigyl bromides in the presence of zinc (51). 

Nucleophilic additions to (cyclohexadienone)Fe(CO)3 complexes (218) occur in a dia-stereospecific fashion (Scheme 56)197. For example, the Reformatsky reaction of ketone (218a) affords a simple diasteromeric alcohol product19715. The reduction of (1-carbo-methoxycyclohexa-l,3-dien-5-one)Fe(CO)3 (218b) to give 219 has been utilized in the enantioselective synthesis of methyl shikimate. In a similar fashion, cycloadditions of (2-methoxy-5-methylenecyclohexa-l,3-diene)Fe(CO)3 (220) occur in a diastereospecific fashion198. 

Application of the Reformatsky Reaction to Thiophene Aldehydes and Ketones. J. org. Chemistry 15, 89 (1950). 

The mechanism of the Zn chloride-assisted, palladium-catalyzed reaction of allyl acetate (456) with carbonyl compounds (457) has been proposed [434]. The reaction involves electroreduction of a Pd(II) complex to a Pd(0) complex, oxidative addition of the allyl acetate to the Pd(0) complex, and Zn(II)/Pd(II) transmetallation leading to an allylzinc reagent, which would react with (457) to give homoallyl alcohols (458) and (459) (Scheme 157). Substituted -lactones are electrosynthesized by the Reformatsky reaction of ketones and ethyl a-bromobutyrate, using a sacrificial Zn anode in 35 92% yield [542]. The effect of cathode materials involving Zn, C, Pt, Ni, and so on, has been investigated for the electrochemical allylation of acetone [543]. 

Other a-fluorinated carboethoxy substrates have been utilized in Reformatsky reactions. Treatment of ethyl dibromofluoroacetate with aldehydes or ketones in presence of zinc and EtaAlCl gave diastereomeric a -brorno-a-fluoro /i-hydroxyalkanoic esters in good yield (49-77%) (equation 120)177. Use of 2 equivalents each of RCHO, Zn and Et2AlCl gave the double coupled products in good yield. 

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