Character electrophilic

Few examples of reactivity involving the electrophilic character of the Cn atom are reported. In some cases, a catalyst or reagent convens the neutral thione into a quaternary- salt (Scheme 40), the Ct of which is clearly electrophilic (205. 206), The mechanism of Raney Ni desul-... 

The electrophilic character of the C-2 atom is more clearly evident in A-4-thiazoline-2-ones than in A-4-thiazoline-2-thiones. 3-Mcthyl-A-4-thiazoline-2-one is cleaved in alcaline medium to give methylaraine (36). This reaction probably starts with the nucleophilic attack of OH on C-2. 

Except in the case of formaldehyde, the electrophilic character of carbon atom of an aliphatic aldehyde is not strong enough to allow its condensation on a CH3 reactive group. However, such a condensation can occur with an aromatic or pseudoaromatic substance such as benzal-dehyde or pyrroloaldehyde, and the of the resulting dimethine dyes have been used in this last case to obtain the basicity scale of various rings (16). 

The (thermal) decomposition of thiazol-2-yldiazonium salts in a variety of solvents at 0 C in presence of alkali generates thiazol-2-yl radicals (413). The same radicals result from the photolysis in the same solvents of 2-iodothiazole (414). Their electrophilic character is shown by their ability to attack preferentially positions of high rr-electron density of aromatic substrates in which they are generated (Fig. 1-21). The major... 

In agreement with the theory of polarized radicals, the presence of substituents on heteroaromatic free radicals can slightly affect their polarity. Both 4- and 5-substituted thiazol-2-yl radicals have been generated in aromatic solvents by thermal decomposition of the diazoamino derivative resulting from the reaction of isoamyl nitrite on the corresponding 2-aminothiazole (250,416-418). Introduction in 5-position of electron-withdrawing substituents slightly enhances the electrophilic character of thiazol-2-yl radicals (Table 1-57). 

The electrophilic character of boron is again evident when we consider the oxida tion of organoboranes In the oxidation phase of the hydroboration-oxidation sequence as presented m Figure 6 11 the conjugate base of hydrogen peroxide attacks boron Hydroperoxide ion is formed m an acid-base reaction m step 1 and attacks boron m step 2 The empty 2p orbital of boron makes it electrophilic and permits nucleophilic reagents such as HOO to add to it... 

The reactivity of the individual O—P insecticides is determined by the magnitude of the electrophilic character of the phosphoms atom, the strength of the bond P—X, and the steric effects of the substituents. The electrophilic nature of the central P atom is determined by the relative positions of the shared electron pairs, between atoms bonded to phosphoms, and is a function of the relative electronegativities of the two atoms in each bond (P, 2.1 O, 3.5 S, 2.5 N, 3.0 and C, 2.5). Therefore, it is clear that in phosphate esters (P=0) the phosphoms is much more electrophilic and these are more reactive than phosphorothioate esters (P=S). The latter generally are so stable as to be relatively unreactive with AChE. They owe their biological activity to m vivo oxidation by a microsomal oxidase, a reaction that takes place in insect gut and fat body tissues and in the mammalian Hver. A typical example is the oxidation of parathion (61) to paraoxon [311-45-5] (110). 

Aromatic compounds may be chlorinated with chlorine in the presence of a catalyst such as iron, ferric chloride, or other Lewis acids. The halogenation reaction involves electrophilic displacement of the aromatic hydrogen by halogen. Introduction of a second chlorine atom into the monochloro aromatic stmcture leads to ortho and para substitution. The presence of a Lewis acid favors polarization of the chlorine molecule, thereby increasing its electrophilic character. Because the polarization does not lead to complete ionization, the reaction should be represented as shown in equation 26. 

With nitnles in general, addition reactions take place readily in the presence of acids, because of the enhanced electrophilic character of the central carbon atom in the conjugate acid ... 

An adjacent tnfluoromethyl group sharply increases the electrophilic character of the carbonyl carbon Compounds that readily form hydrates and hemiacetals show a time-dependent reversible mhibition of the en yme acetylcholinesterase (equation 2), in which the tight complex makes inhibition only partially reversible [75] In comparison with a nonfluormated analogue, several aliphatic ketones flanked by CFj and CF2 groups, are exceptionally potent reversible inhibitors of acetylcholinesterase, as documented by companson of inhibition constants shown in equation 3 [16 ... 

The reactions of carbenes, which are apparently unique in displaying electrophilic character in strongly basic solutions, include substitution, addition to multiple bonds, and co-ordination with lone pairs of electrons to form unstable ylides. This last reaction is of obvious relevance to a consideration of the reactions of heterocyclic compounds with carbenes and will be summarized. 

The behavior of such activated halides as alkylating agents under Friedel-Crafts conditions expands the scope of the synthesis. Aluminum chloride enhances the electrophilic character of the a,/S-unsaturated carbonyl system and permits the nucleophilic attachment of the aromatic addendum (Y ) to the carbon bearing the positive charge, with displacement of halogen [Eq. (5)]. Thus,... 

Inspection of the three cations shows that (13) and (14) would be expected to be quito active as electrophilic reagents by reason of delocalization of the positive charge by mesomerism leading to the transfer of electrophilic character to the carbon atom. Cation (12), on the other hand, would show electrophilic reactivity at carbon only by induction. Since neutral pyrrole is so susceptible to electrophilic attack, it is extremely likely that it would react with one or other of the three cations. 

Surely these views are not very plausible, depending as they do on the formation of such an improbable system as (23). How much more simple is it to view acid catalysis as involving enhancement of the electrophilic character of the reagent. Thus, in the formaldehyde condensation, it is protonated formaldehyde,... 

The dimerization of skatole proceeds in an entirely analogous manner, cation (44) now being the electrophilic reagent. This is sufficiently reactive to effect substitution at the a-position of a neutral skatole molecule. Attack by the less hindered side of cation (44) will be favored, leading to the stereochemistry shown in structure (30). The failure of 2-methylindole to dimerize is paralleled by the failure of 2-methylpyrrole dimer to react with a further molecule of 2-methylpyrrole. The main reason is almost certainly again the reduction in the electrophilic character of the immonium carbon by... 

In order to rationalize the orr/zo-selectivity observed in the reaction of sodium phenoxide 1 with carbon dioxide, the formation of a complex 3 is assumed. By that complexation the carbon dioxide becomes polarized, and its electrophilic character is increased. Complex 3 is of suitable geometry for reaction with the activated ort/zo-carbon center " ... 

The reactivity of the phosphorus ylide 1 strongly depends on substituents R R. For preparative use R often is a phenyl group. When R or R is an electron-withdrawing group, the negative charge can be delocalized over several centers, and the reactivity at the ylide carbon is reduced. The reactivity of the carbonyl compound towards addition of the ylide increases with the electrophilic character of the C=0 group. R R are often both alkyl, or alkyl and aryl. 

Arenes, on complexdQon with Cr, Fe, Mn, and so forth, acquire strongly electrophilic character, such complexes m reactions with nucleophiles behave as electrophilic tutroarenes. Synthesis of aromatic tutnles via the temporary complexanon of rutroarenes to the catiotuc cyclopentadienyhron moiety, cyarude addition, and oxidative demetalation v/ith DDQ has been reported fEq. 9.43 ... 

The electrophilic character of the palladium atom in the complexes formed by oxidative addition of aryl halides and alkenyl halides to palladium(o) complexes can be exploited in useful ways. 

More surprising, in view of its poor electrophilic character, is that phcnylnitrene, generated by deoxygenation of nitroso benzene with triethyl phosphite in a mixture of benzene and 2,2,2-trifluoroethanol, yields 1-phenyl-1//-azepine (26), a rare example of a stable 1-aryl-lH-azepine.170... 

The use of mixtures of trimethylbromosilane and dimethyl sulfoxide to brominate indoles is more successful than analogous chlorinations since the bromine atom increases the rate of transformation of Me2S+OSiMe3 to Me2S+Br and shows a stronger electrophilic character than the chloro intermediate. Sulfonium products do not form in such reactions [89JCR(S)182],... 

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