Anionic reagents

Ladenheim and Morawetz [23] also showed that the reactivity of the carboxylate units in partially ionized poly(methacrylic acid) (PMA) toward BrCH2COO in the bromine displacement reaction was greatly diminished, while the reaction proceeded at an appreciable rate with uncharged p-bromoacetamide [23]. This inhibition of the reaction of the polyanion with a small anionic reagent can be attributed to the electrostatic repulsion between the polymer and the reagent. 

On the other hand, the fluorine-induced addition of the diastereomeric silyl-subsliluted sulfides 36 A and 36B to benzaldehyde proceeds without loss of stereochemical information and with retention of configuration32. Since, however, the anionic reagent 35A/35B is known to be configurationally labile, the observed retention of configuration in the fluorine-induced desi-lylative hydroxy alkylation lends experimental evidence to the notion that these reactions proceed via hypervalent silicon species rather than anionic reagents. 

Hetero-benzylic anionic reagents, derived from 2-alkyl-l,3-oxazoles, -1,3-thiazoles and -imidazoles and related compounds, are not covered in this section because these resemble metallo 1-azaenolates in their reactivity (Section D.l.3.5.). 

In most cases, the addition of prostereogenic benzyl anion reagents with prostereogenic aldehydes (or ketones) proceeds with low stereoselectivity. Some notable exceptions are reviewed later. 

The Bart reaction shows characteristics similar to the Sandmeyer reaction (anionic reagent, catalysis by copper). However, it has not been investigated in the light of the modern concepts applied to the elucidation of the Sandmeyer reaction (Sec. 8.6). 

It is well known that the base hydrolysis of polyacrylamide is catalyzed by OH ions (first order reaction) and obeys autoretarded kinetics due to the electrostatic repulsion between the anionic reagent and the polymeric substrate(3-5). In the range of slightly acid pH (3 < pH < 5), Smets and Hesbain(6) have demonstrated a... 

This duality in behavior of some SN2 reactions can be foreseen and observed (vide infra) by comparing reactions involving hard or soft nucleophilic anionic reagents according to the cation and the leaving group. 

Other liquid-ligand two-phase reactions mediated by polyethers include anion promoted C-alkylations, oxidations, and (borohydride) reductions. In such cases, the organic substrate and a catalytic amount of polyether in an organic phase are shaken with a saturated aqueous solution of the required anionic reagent. 

The use of an anionic reagent for addition at carbonyl carbon rather than a fully esterified form of a trivalent phosphorus acid obviates a troublesome aspect of the Abramov reaction. Specifically no dealkylation step is required. Mechanistic investigations257 258 indicate that the reaction proceeds much as a simple "aldol"-type reaction in which the anionic phosphorus site adds directly to the carbonyl center. While the initial efforts concerned with the "Pudovik reaction"259 were directed toward the use of sodium salts of the simple dialkyl phosphites, as shown in Equation 3.17,260 266 with a, 5-unsaturated carbonyl systems (vide infra) competition between sites for addition can occur. Addition at the carbonyl carbon site is the kinetically favored route.267-270... 

A particularly ingenious approach is that of triphase catalysis which was developed by Regen (1979). The catalyst is a quaternary ammonium residue which is covalently bound to an insoluble polystyrene resin, and reactions of anionic reagents are carried out in a two-phase water-organic solvent mixture. 

In previous sections, numerous examples of anion activation by cationic micelles and polysoaps were presented. The extent of rate augmentation— 102—lO -fold—cannot be rationalized in terms of concentration effects alone. We believe that these observations are explained most reasonably by the concept of the hydrophobic ion pair (Kunitake et al., 1976a). According to this concept, anionic reagents are activated probably due to desolvation when they form ion pairs with an ammonium moiety in a hydrophobic microenvironment. The activation of anionic species in the cationic micellar phase... 

As mentioned repeatedly, a variety of anionic reagents are highly activated in the hydrophobic microenvironment of cationic micelles and polysoaps. The range of anionic reagents studied in the past includes imidazole, hydroxide, thiolates, oximates, hydroxamates, carboxylates and carbanions. Polyanionic coenzymes are similarly activated. These results can be interpreted in a unified way by the concept of hydrophobic ion pairs, and the major source of activation seems to be concentration and desolvation of the anionic reagent in the... 

All these kinetic features may be readily taken into account within the 3 following assumptions a) because of lower steric hindrance, isotactic triads exhibit a better accessibility than the syndiotactic ones kQ(AmAmA)>kQ(ArArA) b) autoretarded kinetics arises from increasing steric hindrance around the reaction sites as the substitution proceeds further, and from electrostatic repulsion between the anionic reagent j RCH2 ) and the modified negatively charged chain (AAB and AAB-AB-) c) this electrostatic effect is partly canceled in isotactic triads by anchimeric assistance of the substituted B unit to the SN2 step WVmAJ-MAmV -). 

Some tellurium anionic reagents offer a great contribution to these deblocking reactions owing to the use of mild experimental conditions and a non-hydrolytic medium. 

Carbonyl or cyano groups, of proven value in Diels-Alder reactions and 1,3-dipolar cycloadditions, are unsuitable for anionic cycloadditions owing to the pronounced nucleophilic and basic character of the anionic reagents. Instead of cycloaddition nucleophilic attack of these groups or deprotonation of the substrates would occur. This means that aromatic residues are indispensible which are practically unremovable after the cycloaddition and, unlike the carbonyl group, hardly unsuitable for subsequent synthetic steps. 

Since movement within the solvation shell in these complexes is relatively sluggish, it is postulated that a complex remains activated only long enough to react with its immediate environment, the inner solvation shell. In the reaction with anionic species, a situation can be reached in which nearly all of the substrate is in the form of the maximum ion aggregate. Any increase in the anion concentration in the bulk solvent will not change the immediate environment of nearly all the substrate and, therefore, will not effect the reaction rate. In this way a limiting rate can be independent of the concentration of added anionic reagent, irrespective of the actual mechanism of the actual act of substitution. 

In other words, the rate decreases to zero as the concentration of anionic reagent decreases to zero. 

Hence, the rate will remain finite as the concentration of the anionic reagent approaches zero. 

The transition metal catalysed formation of five membered heterocycles through the insertion of a triple bond has also been explored. o-Halophenyl-alkynylamines, propargylamines and propargyl-ethers have been subjected to ring closure reactions. These processes, however also require the presence of a second, anionic reagent, which converts the palladium complex formed in the insertion step to the product. 

An important variation on the Claisen condensation is to use a ketone as the anionic reagent. This often works well because ketones usually are more acidic than simple esters and the base-induced self-condensation of ketones (aldol addition) is thermodynamically unfavorable (Section 17-3C). A typical example is the condensation of cyclohexanone with diethyl ethanedioate (diethyl oxalate) ... 

In accord with these conclusions, anionic reagents such as methoxide or amide add to C(l), and afford vinylcarbene complexes after protonation ... 

Alternatively, a more nucleophilic anionic reagent can be generated by selective cleavage of a single trimethylsilyl group with methyl lithium-lithium bromide complex. This 1ithiobutadlyne derivative will react with electrophiles such as carbonyl compounds or primary alkyl iodides. 2... 

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