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Benzyl radical reaction with

The data are consistent with polymer formation by way of phenyl radical reaction with benzene or the fulvene produced to give cyclic radical intermediates which then polymerize to yield a polycyclopentene chain with pendant phenyl and/or benzyl groups. The average non-olefinic to olefinic proton ratio of 2.9 indicates that the many possible... [Pg.315]

Reactions with Radioals. Radical substitution of azulene appears to take place preferentially at the 1-position. Thus azulene reacts with /V-nitrosoacetanilide in benzene to give 1-phenylazoazulene and 1-phenylazulene [144,145], and benzoyl peroxide gives a product which is assumed to be 1-azulenyl benzoate [145]. Benzyl radicals react with azulene to give a mixture of 1-benzylazulene, 2-benzylazulene and some pentabenzylazulene [146],... [Pg.418]

Scheme 6.13 Reaction of benzyl radical (29) with oxygen in matrix... Scheme 6.13 Reaction of benzyl radical (29) with oxygen in matrix...
Benzyl Chloride. Benzyl chloride is manufactured by high temperature free-radical chlorination of toluene. The yield of benzyl chloride is maximized by use of excess toluene in the feed. More than half of the benzyl chloride produced is converted by butyl benzyl phthalate by reaction with monosodium butyl phthalate. The remainder is hydrolyzed to benzyl alcohol, which is converted to ahphatic esters for use in soaps, perfume, and davors. Benzyl salicylate is used as a sunscreen in lotions and creams. By-product benzal chloride can be converted to benzaldehyde, which is also produced directiy by oxidation of toluene and as a by-product during formation of benzoic acid. By-product ben zotrichl oride is not hydrolyzed to make benzoic acid but is allowed to react with benzoic acid to yield benzoyl chloride. [Pg.191]

The results are consistent with the rate-determining step being addition of the aryl radical to the aromatic ring, Eq. (9). Support for this mechanism is derived from the results of three other studies (a) When A -nitrosoacetanilide is decomposed in pyridine, the benzene formed by abstraction of hydrogen from pyridine by phenyl radical accounts for only 1 part in 120 of the reaction leading to phenyl-pyridines. (b) 9,9, 10,lCK-Tetrahydro-10,10 -diphenyl-9,9 -bianthryl is formed in the reaction between phenyl radicals and anthracene, probably by the addition mechanism in Eq. (11). Adducts are also formed in the reactions of benzyl radicals with anthracene- and acridine. ... [Pg.137]

Alkyl radicals can be obtained by abstraction of a hydrogen atom from an alkyl group by another radical. This method was utilized for the generation of benzyl radicals from toluene with iert-butoxy radical obtained on heating di- er -butyl peroxide. BenzoyP and carboxymethyP radicals have also been obtained by this method. The reaction gives rise to a complex mixture of products and therefore is of rather limited use. [Pg.154]

The reaction of benzyl radicals wdth several heterocyclic compounds W as more extensively studied by Waters and Watson, " - who generated benzyl radicals by decomposing di-tert-butyl peroxide in boiling toluene. The products of the reaction with acridine, 5-phenyl-acridine, 1 2- and 3 4-benzacridine, and phenazine were studied. Acridine gives a mixture of 9-benzylacridine (17%) (28) and 5,10-dibenzylacridan (18%) (29) but ho biacridan, w hereas anthracene gives a mixture of 9,10-dibenzyl-9,10-dihydroanthracene and 9,9 -dibenzyl-9,9, 10,10 -tetrahydrobianthryl. This indicates that initial addition must occur at the meso-carbon and not at the nitrogen atom. (Similar conclusions were reached on the basis of methylations discussed in Section III,C.) That this is the position of attack is further supported by the fact that the reaction of benzyl radicals with 5-... [Pg.157]

The reaction of benzyl radicals with phenazine gives 5,10-dibenzyl-5,10-dihydrophenazine (39) and 1-benzylphenazine (40) in the approximate ratio of 1 3. " ... [Pg.159]

Only about 1% of bibenzyl is formed during the reaction and it was suggested that this reflects the high reactivity of phenazine toward benzyl radicals. Evidently direct attack on the nitrogen atom occurs with relative ease in this case. [Pg.159]

The chain propagation step consists of a reaction of allylic radical 3 with a bromine molecule to give the allylic bromide 2 and a bromine radical. The intermediate allylic radical 3 is stabilized by delocalization of the unpaired electron due to resonance (see below). A similar stabilizing effect due to resonance is also possible for benzylic radicals a benzylic bromination of appropriately substituted aromatic substrates is therefore possible, and proceeds in good yields. [Pg.299]

The mechanism of benzylic bromination is similar to that discussed in Section 10.4 for allylic bromination of alkenes. Abstraction of a benzylic hydrogen atom generates an intermediate benzylic radical, which reacts with Br2 to yield product and a Br- radical that cycles back into the reaction to carry on the chain. The Br2 necessary for reaction with the benzylic radical is produced by a concurrent reaction of HBr with NBS. [Pg.578]

Reaction occurs exclusively at the benzylic position because the benzylic radical intermediate is stabilized by resonance. Figure 16.20 shows how the benzyl radical is stabilized by overlap of its p orbital with the ring 77 electron system. [Pg.578]

The reaction between nitroxides and carbon-centered radicals occurs at near (but not at) diffusion controlled rates. Rate constants and Arrhenius parameters for coupling of nitroxides and various carbon-centered radicals have been determined.508 311 The rate constants (20 °C) for the reaction of TEMPO with primary, secondary and tertiary alkyl and benzyl radicals are 1.2, 1.0, 0.8 and 0.5x109 M 1 s 1 respectively. The corresponding rate constants for reaction of 115 are slightly higher. If due allowance is made for the afore-mentioned sensitivity to radical structure510 and some dependence on reaction conditions,511 the reaction can be applied as a clock reaction to estimate rate constants for reactions between carbon-centered radicals and monomers504 506"07312 or other substrates.20... [Pg.138]

In the anodic decarboxylation of phenylacetic acid benzaldehyde is the major product (80%) at low current density (< 3.2mA/cm ). Its formation is supposed to occur by reaction of the intermediate benzyl radical with oxygen, which is possibly simultaneously generated at the anode [31]. [Pg.93]

Partenheimer showed (ref. 15) that when toluene was subjected to dioxygen in acetic acid no reaction occurred, even at 205 °C and 27 bar. He also showed that when a solution of cobalt(II) acetate in acetic acid at 113 °C was treated with dioxygen ca. 1 % of the cobalt was converted to the trivalent state. In the presence of a substituted toluene two reactions are possible formation of a benzyl radical via one-electron oxidation of the substrate or decarboxylation of the acetate ligand (Fig. 9). Unfortunately, at the temperatures required for a reasonable rate of ArCH3 oxidation (> 130 °C) competing decarboxylation predominates. As noted earlier, two methods have been devised to circumvent this undesirable... [Pg.286]


See other pages where Benzyl radical reaction with is mentioned: [Pg.822]    [Pg.104]    [Pg.328]    [Pg.223]    [Pg.394]    [Pg.467]    [Pg.2416]    [Pg.316]    [Pg.125]    [Pg.62]    [Pg.57]    [Pg.158]    [Pg.140]    [Pg.967]    [Pg.433]    [Pg.62]    [Pg.692]    [Pg.100]    [Pg.159]    [Pg.199]    [Pg.298]    [Pg.477]    [Pg.597]    [Pg.636]    [Pg.54]    [Pg.117]    [Pg.74]    [Pg.193]    [Pg.194]    [Pg.197]    [Pg.701]   
See also in sourсe #XX -- [ Pg.2 , Pg.102 ]




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Benzyl radical

Benzyl radicals, reactions

Benzylation reactions

Benzylic radicals

Reaction with radicals

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