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Carbanions, Carbanionic species

From the thorough studies of the mechanism of elimination of hydrogen halides from vicinal fluorohalo compounds, it follows that the result of elimination depends on the stabihty of the carbanionic species in which the negative charge is on the carbon P to fluorine and a to chlorine or bromine [43, 44, 45, 46, 47, 48, 49, 50, 51. 52, 53, 54]... [Pg.896]

NMR spectroscopy is ideal for detecting charged fluorinated intermediates and has been applied to the study of increasingly stable carbocation and carbanion species. Olah [164, 165] has generated stable fluorocarbocations m SbFj/SOjClF at low temperatures The relatively long-lived perfluoro-rerr-butyl anion has been prepared as both the cesium and tris(dimethylamino)sulfonium (TAS) salts by several groups [166, 167, 168], Chemical shifts of fluonnated carbocations and carbanions are listed m Table 23. [Pg.1067]

A cyanide anion as a nucleophile adds to an aldehyde molecule 1, leading to the anionic species 3. The acidity of the aldehydic proton is increased by the adjacent cyano group therefore the tautomeric carbanion species 4 can be formed and then add to another aldehyde molecule. In subsequent steps the product molecule becomes stabilized through loss of the cyanide ion, thus yielding the benzoin 2 ... [Pg.37]

The cyanide ion plays an important role in this reaction, for it has three functions in addition to being a good nucleophile, its electron-withdrawing effect allows for the formation of the carbanion species by proton transfer, and it is a good leaving group. These features make the cyanide ion a specific catalyst for the benzoin condensation. [Pg.37]

The carbanionic species thus formed is protonated to give the final product 3. The use of an alkoxide as base leads to formation of a carboxylic ester as rearrangement product use of a hydroxide will lead to formation of a carboxylic acid salt ... [Pg.111]

An a-halosulfone 1 reacts with a base by deprotonation at the a -position to give a carbanionic species 3. An intramolecular nucleophilic substitution reaction, with the halogen substituent taking the part of the leaving group, then leads to formation of an intermediate episulfone 4 and the halide anion. This mechanism is supported by the fact that the episulfone 4 could be isolated. Subsequent extrusion of sulfur dioxide from 4 yields the alkene 2 ... [Pg.235]

Important and widely used variants of the Wittig reaction are based on carbanionic organophosphorus reagents, and are known as the Wadsworth-Emmons reaction, Wittig-Horner reaction or Horner-Wadsworth-Emmons reaction. As first reported by Horner, carbanionic phosphine oxides can be used today carbanions from alkyl phosphonates 13 are most often used. The latter are easily prepared by application of the Arbuzov reaction. The reactive carbanionic species—e.g. 14 —is generated by treatment of the appropriate phosphonate with base, e.g. with sodium hydride ... [Pg.295]

The subsequent steps are a sequence of base-induced H-shifts to give the anionic species 5, from which loss of nitrogen (N2) leads to a carbanionic species 6. The latter is then protonated by the solvent to yield hydrocarbon 3 as the final product ... [Pg.303]

In reactions in which separated ion pairs are involved, e.g., R4N+, K or Na +, and as a borderline case, Li +, the cation does not contribute to the adjustment of the reaction partners in a dense, well-ordered transition state poor selcctivities arc usually the result of these carbanionic carbonyl additions. Further, the high basicity of such carbanionic species may cause decomposition or racemization of sensitive reactions partners. [Pg.208]

Before turning to epoxide opening with low valent metal complexes, the reduction of epoxides under Birch conditions [10-13] will be discussed very briefly for historical reasons. The initially formed radical is reduced further to give carbanionic species, that do not display the reactivity of radicals. No C - C bond-forming reactions have initially been reported. [Pg.36]

Nickel halides and nickel complexes resulting from oxidative addition can also give rise to subsequent replacement and insertion reactions. Replacement reactions have been described mainly with arylnickel halide complexes (examples 23, 29, and 31, Table III). Carbanionic species replace halide ions and can undergo coupling or insertion reactions. An example of application of a carbanionic reaction to the synthesis of a natural product is the coupling step between an aromatic iodo-derivative and an active methylene group to form cephalotaxinone (example 23, Table III). [Pg.216]

Generally, the two-electron reduction of organic halides produces carbanion species. In fact, cathodic reduction of organic halides under certain conditions gives the product derived from the corresponding carbanion intermediates. Silicon is known to stabilize the carbanion at the a position by dn-pn interaction. Therefore, we can expect that silicon promotes the electron transfer from carbon-halogen bonds and the formation of the carbanion at the a position. [Pg.86]

In the light of the success of the Birch conditions for reducing organic compounds it is not surprising that epoxides can be opened by solvated electrons [6-9]. The initially formed radical is then further reduced to give carbanionic species, which do not display the reactivity of radicals. This concept has been extended by Bartmann [10], Cohen et al. [11], Conrow [12], and Yus et al. [13,14] who employed aromatic radical anions as the reduc-... [Pg.52]

Functionalization of these reactive anionic chain ends can be achieved by a variety of methods all based on the general concepts of carbanion chemistry. For example, reaction with C02 or succinnic anhydride leads to the carboxy terminated derivatives [10], while hydroxy-terminated polymers can be easily obtained by reaction with ethylene oxide (Scheme 3) [11]. In select functionalization reactions, such as alkylation with p-vinyl benzyl chloride, the nucleophilicity of the carbanionic species may be necessary and this can be achieved by reaction of the chain end with 1,1-diphenylethene followed by functionalization [12,13]. [Pg.48]

A review entitled a-heteroatom-substituted 1-alkenyllithium regents carbanions and carbenoids for C-C bond formation has addressed the methods of generation of such species, illustrated the carbenoid reactivity of a-lithiated vinyl halides and vinyl ethers, and emphasized the synthetic potential of the carbanion species in asymmetric synthesis of a-hydroxy- and a-amino-carbonyl compounds. ... [Pg.368]

The simplest case in which the relative rates of deprotonation determine the enantiomeric ratio of product is only given when the intermediate carbanionic species are... [Pg.1058]

Electrophiles, which lead to high yields, are methyl iodide, trialkyltin- and trialkylsUyl chlorides, diphenylphosphinyl chloride, acid chlorides, aldehydes and carbon dioxide. Remarkably, though highly acidic ketones are formed on acylation, no deprotonation or racemization by excess of carbanionic species occurs. Other alkyl halides than methyl iodide react very sluggishly with low yields. Benzylic and aUylic halides lead to partial racemization, presumably due to single-electron transfer (SET) in the alkylation step. As very recently found by Papillon and Taylor, racemization of 42 can be suppressed by copper-zinc-lithium exchange before alkylation to 43 via the Knochel cuprates (equation 7) °. [Pg.1061]

The asymmetric (—)-sparteine-mediated deprotonation of alkyl carbamates was unprecedented until discovered in 1990 °. For the first time, protected 1-alkanols could be transformed generally to the corresponding carbanionic species by a simple deprotonation protocol. Moreover, an efficient differentiation between enantiotopic protons in the substrate took place and the extent of stereoselection could be stored in a chiral ion pair, bearing the chiral information at the carbanionic centre. [Pg.1066]

Attempts to extend this process to the related 2-pyridone system have been less successful, with only a small proportion of C-6 lithiation being observed with l-methyl-2-pyridone [85CC1021 88JCS(P1)1]. In fact, the major mode of reaction involves lithiation of the exocyclic methyl group, to give a carbanionic species that is dipole-stabilized by the heterocyclic amide group (Scheme 120) (83MI1). [Pg.251]

Phosphonium ylides react with 1,2-dithiols in a basic medium to afford thieno[2,3-. ]thiopyrans <2005JHC103>. This reaction represents the insertion of a carbanion species between two sulfur atoms. [Pg.304]

Lithium ester enolate-imine condensation has been used for the preparation of / -lactam rings via addition at the imine moiety <1996H(43)1057>. But treatment of imino derivatives of the pyridazine 293 with the lithium enolate of ethyl a,a-dimethylacetate 294 in THE led to the formation of the pyrido[3,4-r/ pyridazine 295 and its oxidized form 296. Compound 295 was obtained by nucleophilic attack of the carbanion species at C-5 of the pyridazine ring followed by cyclization (Equation 24) <1996JHC1731>. [Pg.792]

The use of inert atmospheres and rigorously anhydrous solvents follows common practice for handling reactive carbanionic species. [Pg.1082]


See other pages where Carbanions, Carbanionic species is mentioned: [Pg.120]    [Pg.44]    [Pg.156]    [Pg.45]    [Pg.307]    [Pg.43]    [Pg.470]    [Pg.232]    [Pg.208]    [Pg.477]    [Pg.1059]    [Pg.1123]    [Pg.161]    [Pg.161]    [Pg.276]    [Pg.567]    [Pg.44]    [Pg.147]    [Pg.65]    [Pg.113]    [Pg.129]    [Pg.151]    [Pg.854]   
See also in sourсe #XX -- [ Pg.310 , Pg.311 , Pg.312 , Pg.313 , Pg.314 , Pg.315 , Pg.321 , Pg.324 , Pg.334 , Pg.379 , Pg.380 , Pg.384 , Pg.389 , Pg.391 , Pg.392 ]




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