Carbanions reaction with carbonyls

In this section alkylation, Michael additions, hydroxyalkylation (reaction with carbonyl compounds), aminoalkylation, acylation and some other reactions of a-sulphinyl carbanions will be discussed. 

The decarboxylation reaction usually proceeds from the dissociated form of a carboxyl group. As a result, the primary reaction intermediate is more or less a carbanion-like species. In one case, the carbanion is stabilized by the adjacent carbonyl group to form an enolate intermediate as seen in the case of decarboxylation of malonic acid and tropic acid derivatives. In the other case, the anion is stabilized by the aid of the thiazolium ring of TPP. This is the case of transketolases. The formation of carbanion equivalents is essentially important in the synthetic chemistry no matter what methods one takes, i.e., enzymatic or ordinary chemical. They undergo C—C bond-forming reactions with carbonyl compounds as well as a number of reactions with electrophiles, such as protonation, Michael-type addition, substitution with pyrophosphate and halides and so on. In this context,... 

Current results indicate that stabilized arsonium ylides such as phenacylide, carbomethoxymethylide, cyanomethylide, fluorenylide, and cyclopentadienylide afford only olefinic products upon reaction with carbonyl compounds. Nonstabilized ylides such as ethylide afford almost exclusively epoxides or rearranged products thereof. However, semi-stabilized arsonium ylides, such as the benzylides, afford approximately equimolar amounts of olefin and epoxide. Obviously, the nature of the carbanion moiety of the arsonium ylide greatly affects the course of the reaction. It is reasonable to suppose that a two-step mechanism is involved in the reaction of heteronium (P, S, and As) ylides with carbonyl compounds (56). 

The carbanion derived from diethyl l-(trimethylsiloxy)-l-phenylmethanephosphonate 291 served as an acyl anion equivalent. Its reaction with carbonyl compounds afforded the silylated benzoin derivatives 292 (equation 182)443. This reaction was useful for the synthesis of 2-phenylbenzo[h]furans without laborious isolation of the intermediate benzoin. 

These are very facile processes, and here this subject is divided into reaction of halides with (i) organometallic compounds, (ii) reaction with carbonyl stabilized anions and (iii) reaction with other carbanions. 

This review describes some novel reaction types (Section F), but the more extensive area of activity has to do with variable adjustment of carbanion reactivity and selectivity in reactions with carbonyl compounds (Sects. C-E). Organotitanium... 

Silicon substituents are known to stabilize both radical and carbanion centers. Thus, better and more consistent yields are obtained from intermolecular coupling reactions using trimethylsilyl substituted alkenes such as VII as substrates for reaction with carbonyl... 

The triethylaluminum or triethylborane ate complexes (12) of the (isopropylthio)allyl carbanion react with carbonyl compounds at the a-position (equation 10). In the reactions with carbonyl compounds, very high regioselectivity (for example, butanal 95 5, 3-methylbutanal 99 1, cyclohexanone 92 8 and acetophenone 95 5) was achieved by using the aluminum ate complex. On the other hand, the a-regio-selectivity with ketones decreases if the boron ate complex is used (cyclohexanone 72 28, acetophenone 45 55). It is noteworthy that the stereoselectivity of the a-adduct from an aldehyde is low. Ihesumably the geometry of the double bond in the ate complex (12) is not homogeneous. ... 

The chemistry of carbanions stabilized by the heavy main group elements has been extensively investigated by Kauffmann, and a thorough description of his work can be found in a recent review. There are many similarities between the elements. The anions stabilized by the heavy main group elements listed above can generally be alkylated, and in some cases their reaction with carbonyl compounds is a useful alternative to the Wittig reaction. All the stabilized metallomethyl lithium anions (except bismuth) exhibit marked thermal stability. 

Unusual carbanions. Lithium homoenolates are formed from P-aryl-a,P-unsaturated ketones and esters. Their reaction with carbonyl compounds leads to y-lactols and lactones. Reductive dechlorination of a-chloroimines provides a-amino carbanions. Access to 1,2-amino alcohols is assured. 

See Chapter 6 for other examples of carbanions reacting with carbonyl compounds and a discussion of the reaction,... 

Carbamoyl complexes from metal carbonyls and amines 5.8.2.12.4 Carbanions reactions with alkene complexes 5.8.2.3,4 metal carbonyls 5.8.2.S.5 Carbene complexes by alkene metathesis 5.8.2.3.11 formation 5.8.2.8.5 Carbides alkali metal formation 5.10.2.1 bonding 5.10.2 formation 5.10.2 industrial uses 5.10.2 interstitial formation 5.10.2 Carbometallacycle formation 5.S.2.2.2 Carbometallacycles from n-allyl complexes 5.S.2.3.9 Carbon reaction with alkali metals 5.10.2.1 Carbon dioxide complexes formation 5.8.2.14.1 Carbon monoxide displacement by alkenes 5.8.2.3.1 Carbonyl complexes by ligand exchange 5.8.2.12.2 from carbon monoxide 5.8.2.12.1, 5.8.2.12.2... 

Inversion of configuration in the above reaction is in contrast to retention of stereochemistry generally observed in the enantioselective reaction with carbonyl compounds. There are a few reports on the Sg2 reaction with a carbonyl compound proceeding with inversion [32,44]. Recently, Hoppe and coworkers have observed that the configurationally stable chiral a-thio carbanion derived from chiral thiocarbamates reacted with carbonyl compounds to create the quaternary center with complete inversion of the carbanionic center [Eq. (8)] [32], whereas the reaction of the corresponding a-oxy carbanion with electrophiles (including carbonyl compounds) proceeds with retention of configuration [45]. 

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