Carbanions reactions with

Kenig et al. [8, 9] have investigated such systems with dynamic experiments in the temperature range 293-343 K, identifying the differences between various cations (Na , K ) and elaborating an equation 

Reaction (3.4) is also of great interest for the fixation of CO2 into inorganic carbonates (3.6) which have been considered as potential compounds for the safe storage of CO2 for a long time  

The reaction of carbanions with CO2 has also been known for a long time. Such reaction has a key role in natural (de)carboxylation processes. The most classic example is given by the reaction of a Grignard reagent with CO2  

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Some examples of ring opening reactions with carbanions leading to five-membered heterocyclic ring formation are shown in Scheme 85. Pyrrole syntheses from functionally substituted oxiranes and amines are often described and typical examples are shown in Scheme 86. 

The exploration of the chemistry of azirines has led to the discovery of several pyrrole syntheses. From a mechanistic viewpoint the simplest is based upon their ability to behave as a-amino ketone equivalents in reactions analogous to the Knorr pyrrole synthesis cf. Section 3.03.3.2.2), as illustrated in Schemes 91a and 91b for reactions with carbanions. Parallel reactions with enamines or a-keto phosphorus ylides can be effected with electron-deficient 2//-azirines (Scheme 91c). Conversely, electron-rich azirines react with electron deficient alkynes (Scheme 91d). 

The parent bis-benzene complex is hydrolytically sensitive [20] and must be used in its crude form. All the reactions with carbanions give ET products. First, the purple 19e mono-cation [Fe(C6Me6)2] + [25-28] is formed immediately at —90 °C. Then the black 20e complex Fe(C6Me6)2 is observed [25-29], However, recently, Zaworotko et al. have succeeded in making a C-C bond using AlEt3 as the carbanion source [30]. 

Amines, thiols, eOH (p. 226), etc., will also add to the 0-carbon atom of 0-unsaturated carbonyl compounds and esters, but the most important reactions of C=C—C=0 systems are in Michael reactions with carbanions reactions in which carbon-carbon bonds are formed. A good example is the synthesis of l,l-dimethylcyclohexan-3,5-dione (dimedone, 100) starting from 2-methylpent-2-ene-4-one (mesityl oxide, 101) and the carbanion 0CH(CO2Et)2 ... 

Group 14 metals can serve as sacrificial electrodes. Both anodic and cathodic reactions can be considered. Pb and Sn alkyls can be prepared by their use as a sacrificial metallic anode in a reaction with carbanions, for example in a Grignarcl reagent ... 

Alkylaromatic compounds industrial acylation, 41 175 Alkylaromatics, see specific compounds Alkylating reagents, reactions with carbanions, 35 386-389 Alkylation... 

Electrooxidation, ethylene, 30 254-255 Electrophiles, reactions with carbanions, 35 392-393... 

The first chemical transformations carried out with Cjq were reductions. After the pronounced electrophilicity of the fullerenes was recognized, electron transfer reactions with electropositive metals, organometallic compounds, strong organic donor molecules as well as electrochemical and photochemical reductions have been used to prepare fulleride salts respectively fulleride anions. Functionalized fulleride anions and salts have been mostly prepared by reactions with carbanions or by removing the proton from hydrofullerenes. Some of these systems, either functionalized or derived from pristine Cjq, exhibit extraordinary solid-state properties such as superconductivity and molecular ferromagnetism. Fullerides are promising candidates for nonlinear optical materials and may be used for enhanced photoluminescence material. 

As has been exemplified in this chapter, fluorinations with fluorine-18 can be classified into two categories (1) the nucleophilic reactions, which usually involve no-carrier-added [ F]fluoride of high-specific radioactivity as its Kf FIF-K complex and include substitutions in the aliphatic and the /lomoaromatic series and (2) the electrophilic reactions, which mainly use moderately low-specific radioactivity molecular [ F]fluorine, or other reagents prepared from it, such as acetyl [ F] hypofluorite, and include addition across double bonds, reactions with carbanions and especially fluorodehydrogenation and fluorodemetallation reactions. 

NFQNF (2) is more stable than 1 -fluoropyridinium fluoride and it undergoes the same reactions with carbanions. 

The apparent fickleness of the acyl-pyrroles and -indoles in their reaction with carbanions to form new C—C bonds arises from the contribution made by the zwitterionic structure, e.g. (410b), to the resonance hybrid and the choice of the reaction conditions is critical for a successful nucleophilic reaction. Thus, formyl-pyrroles and -indoles do not normally undergo the Cannizzaro reaction nor do they form stable cyanohydrins or undergo benzoin-type reactions. However, surprisingly, 2-formylpyrrole reacts with arylaldehydes in the presence of potassium cyanide to yield (428), which is easily oxidized to (429) (B-77MI30505). It is noteworthy that the presence of an ester substituent adjacent to the formyl group modifies the mesomeric interaction to such an extent to allow the formation of (430) in low yield, as a result of an initial benzoin-type self-condensation (Scheme 76) (68BSF637). 

Activated nitro and halo substituents have been efficiently replaced by a variety of alkyl groups via SsAx reaction with carbanions. Examples include the displacement of the nitro group in compounds (10 X = 4-PhCO, 4-MeOCO, 4-CN, 4-N02, 4-PhS02, 3,5-(CF3>2) by the anion of 2-nitropropane in HMPA at room temperature (equation 2),83 and the reaction of p-dinitrobenzene with several ketones, esters and nitriles (RH equation 3) in Bu OK/liquid NH3 at -70 C.84 Interestingly, under the latter reaction conditions, p-chloronitrobenzene gave the product of alkylation rather than of SNAr displacement of chloride, as in equation (4).85 Further examples include the dehalogenation of p-halonitrobenzenes by 9-fluorenyl anions in DMSO at room temperature,34 and dehalogenation and denitration reactions by the carbanions of phenyl- and diphenyl-acetonitrile in DMSO or under PTC conditions.86... 

The products observed depend on the ability of the nucleophile to generate active fluoride ion to promote the equilibration, as well as the reactivity k3, with the most abundant isomer. Some products are shown in Scheme 64, including reactions with carbanions [128]. 

Carbanions occasionally react with aryl halides spontaneously, mostly under irradiation, or by supplying electrons either from dissolved metals or from a cathode. However, certain Fe+2 salts catalyse the S l reactions with carbanions. That was the case for the reaction of PhBr or Phi with acetone or pinacolone enolate ions in liquid ammonia or DMS0172a, as well as for the reaction of the enolate ion of several carbanions with several aryl and hetaryl halides in DMS0172b. Since these reactions are inhibited byp-DNB andp-cymene, and the relative reactivity of nucleophiles is similar to that determined in photo-stimulated or spontaneous reactions, it seems that FeCl2 initiates the S l process. 

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