Initiators, electrophilic

Fluorination with XeF2 or C H IF2 gives both the 1,2- and 1,4-difluoro products. This reaction proceeds via the initial electrophilic addition of F to the diene (53). 

This type of addition process is particularly likely to be observed when the electrophile attacks a position that is already substituted, since facile rearomatization by deprotonation is then blocked. Reaction at a substituted position is called ipso attack. Addition products have also been isolated, however, when initial electrophilic attack has occurred at an unsubstituted position. The extent of addition in competition with substitution tends to increase on going to naphthalene and the larger polycyclic aromatic ring systems. ... 

Cyclocondensation reactions starting from two components are possible only when both of them have two reactive centers An initial electrophilic-nucleophilic interaction yielding a linear product is followed by a second electrophilic-nucleo-... 

A novel approach to azabicyclic ring systems, based on an epoxide-initiated electrophilic cyclization of an alkyl azide, has been developed by Baskaran. A new stereo- and enantioselective synthesis of the 5-hydroxymethyl azabicyclic framework 91a, present in (+)- and (-)-indolizidines 167B and 209D, for example, was... 

Scheme 8.24 Epoxide-initiated electrophilic cyclization of azides.

The recently reported (757) conversion of 5-pyrazolones directly to a,j8-acetylenic esters by treatment with TTN in methanol appears to be an example of thallation of a heterocyclic enamine the suggested mechanism involves initial electrophilic thallation of the 3-pyrazolin-5-one tautomer of the 5-pyrazolone to give an intermediate organothallium compound which undergoes a subsequent oxidation by a second equivalent of TTN to give a diazacyclopentadienone. Solvolysis by methanol, with concomitant elimination of nitrogen and thallium(I), yields the a,)S-acetylenic ester in excellent (78-95%) yield (Scheme 35). Since 5-pyrazolones may be prepared in quantitative yield by the reaction of /3-keto esters with hydrazine (168), this conversion represents in a formal sense the dehydration of /3-keto esters. In fact, the direct conversion of /3-keto esters to a,jS-acetylenic esters without isolation of the intermediate 5-pyrazolones can be achieved by treatment in methanol solution first with hydrazine and then with TTN. 

We would expect the C=0 linkage, by analogy with C=C (p. 178), to undergo addition reactions but whereas polar attack on the latter is normally initiated only by electrophiles, attack on the former— because of its bipolar nature—could be initiated either by electrophilic attack of X or X on oxygen or by nucleophilic attack of Y or Yt on carbon (radical-induced addition reactions of carbonyl compounds are rare). In practice, initial electrophilic attack on oxygen is of little significance except where the electrophile is an acid (or a Lewis acid), when rapid, reversible protonation may be a prelude to slow, rate-limiting attack by a nucleophile on carbon, to complete the addition, i.e. the addition is then acid-catalysed. 

Carbonyl compounds react with thiols, RSH, to form hemi-thioacetals and thioacetals, rather more readily than with ROH this reflects the greater nucleophilicity of sulphur compared with similarly situated oxygen. Thioacetals offer, with acetals, differential protection for the C=0 group as they are relatively stable to dilute acid they may, however, be decomposed readily by H20/HgCl2/CdC03. It is possible, using a thioacetal, to reverse the polarity of the carbonyl carbon atom in an aldehyde thereby converting this initially electrophilic centre into a nucleophilic one in the anion (31) ... 

Metabolism of BP mediated by the cytochrome P-450 monooxygenase system forms three classes of products phenols, dihydrodiols and quinones. Formation of phenols and dihydrodiols is obtained by an initial electrophilic attack of an enzyme-generated oxygen atom. 

The palladium-catalyzed multicomponent coupling reactions have attracted considerable interest.12,12a 12e A reaction using allylstannane 39 and allyl chloride 40 was applied to the three-component diallylation of benzylidenema-lonitrile and its congeners by Yamamoto et al 2 Analogous diallylation of isocyanate 41 was studied by Szabo et al. (Scheme 7).12a The reaction mechanism can be explained by formation of an amphoteric bis-allylpalladium intermediate 43 which undergoes an initial electrophilic attack on one of the allyl moieties followed by a nucleophilic attack on the other. 

The role of acetic acid in such oxidative cyclization processes is to protonate the acetate ligand, making Pd(II) more electrophilic, thereby promoting the initial electrophilic palladation of the aromatic ring. 

How the initial electrophilic addition of ozone to alkene takes place is not completely known, but it is thought that in the first step of addition the bond connecting the two carbons remains intact. 

The formation of A-fluorinated aziridine-2-carboxylates can be achieved by fluori-nolysis of their IV-aminomethyl derivatives, apparently via the immonium ion-fluoride ion pair formed by initial electrophilic attack of F2 on nitrogen. ... 

If, on the other hand, it is assumed that the initial electrophilic attack is reversible and that addition can occur above or below the plane defined by the alkenes, two diastereomeric cations woidd be formed, perhaps in approximately equal concentration. Due to the proximity of the chiral acyl group, the probability of achieving the transition states (approximately represented by 146 and 147) would be unequal and a function of the difference in sizes of groups R and R (146 and 147). 

Because the initial electrophilic attack and carbocation formation results in loss of aromatic stabilization, the electrophiles necessary for electrophilic aromatic substitution must be more reactive than those that typically react with alkenes. Thus, chlorination or... 

The addition reactions which were discussed in Sections 4.1 and 4.2 are initiated by interaction of a proton with the alkene, which causes nucleophilic attack on the double bond. The role of the initial electrophile can be played by metal cations as well. Mercuric ion is the reactive electrophile in several synthetically valuable procedures.12 13 The most commonly used reagent is mercuric acetate, but the trifluoroacetate, trifluoromethane-sulfonate, or nitrate salts are preferable in some applications. A general mechanism depicts a mercurinium ion as an intermediate.14 Such species can be detected by physical measurements when alkenes react with mercuric ions in nonnucleophilic solvents.15 Depending on the structure of the particular alkene, the mercurinium ion may be predominantly bridged or open. The addition is completed by attack of a nucleophile at the more substituted carbon ... 

Electrophilic addition to 9-vinylcarbazole occurs in the Markovnikov sense, thus hydrogen chloride,hydrogen bromide,chlorine, and bromine in carbon tetrachloride, and iodine chloride in pyridine are recorded as adding with initial electrophilic attack at the methylene. Mercuric acetate in methanol gave 9-(2-acetoxymercuri-l-methoxyethyl)carbazole. Although 9-vinylcarbazole gave an iodohydrin, comparable reaction with methanolic sodium hypochlorite led to 9-(2-chlorovinyl)carbazole. Catalytic reduction of the latter produced 9-(2-chloroethyl)carbazole. Tri-phenyltin hydride gave 96. ... 

The reaction of A2-piperideine (115) with methyl vinyl ketone to give (124) is another example of how initial electrophilic attack on the enamine double bond can be used in heterocyclic synthesis (77ACR193). This overall process is an enamine analog of the Robinson annelation and is a useful approach to the perhydroquinoline ring system. 

With formaldehyde, diketene reacts quite vigorously in water solution without acid catalysis, to give carbon dioxide and 2,6-heptanedione, isolated in 40% yield (75JOC675). This reaction can be explained analogously, with an initial electrophilic attack of the formaldehyde carbon atom on the exocyclic methylene carbon atom of the diketene, followed by ring opening and then reaction with a second molecule of diketene (equation 25). 

Anomalous behavior is exhibited by the tricarbonylruthenium complex of 1-methoxycar-bonyl-1//-azepine in that at room temperature with TCNE, perfluoropropanone or l,l-dicyano-2,2-bis(trifluoromethyl)ethylene, exo-2,5-adducts, e.g. (143), are obtained. Deuteration studies reveal that the addition is non-concerted and involves an initial electrophilic attack by the 2u--system at the uncoordinated double bond of the azepine-metal carbonyl complex <77JCS(D)204). 

Among isolable metal homoenolates only zinc homoenolates cyclize to cyclo-propanes under suitable conditions. Whereas acylation of zinc alkyls makes a straightforward ketone synthesis [32], that of a zinc homoenolate is more complex. Treatment of a purified zinc homoenolate in CDC13 with acid chloride at room temperature gives O-acylation product, instead of the expected 4-keto ester, as the single product (Eq. (22) [33]). The reaction probably proceeds by initial electrophilic attack of acyl cation on the carbonyl oxygen. A C-acylation leading to a 4-keto ester can, however, be accomplished in a polar solvent Eq. (44)-... 

The ozonolysis of olefins may be analyzed as a sequence of two 1,3-dipolar cycloadditions initial electrophilic attack by ozone 18 to form the first intermediate, which decomposes into a carbonyl compound and a carbonyl oxide 14 followed by nucleophilic... 

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