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Primary reagent radical

Free radical propagation reactions have been studied extensively by ESR. The primary reagent radical is generated in an initiation step, which may be a thermal chemical reaction, photolysis, radiolysis, etc. Reaction to give the secondary radical then follows. ESR data for a very wide variety of radical species have been obtained using this approach. Typical primary radicals are OH, alkoxyl radicals (e.g., Bu O ) and hydrated electrons formed in the reactions shown ... [Pg.91]

It is known that acetone enolate anion does not react with primary alkyl radicals, and that nitromethane anion is not capable of initiating the SRN1 reactions even under irradiation [99]. Thus, the photo stimulated reactions of 25 with nitromethane anion as nucleophile and acetone enolate anion as entrainment reagent (which enables SRN1 initiation but cannot compete with the coupling of the methylene radical with nitromethane anion after cyclization) render the cyclized products 26 (Sch. 25) [98]. [Pg.511]

It is noteworthy that this Cl reagent can be applied to a wide range of organic radicals involving rather stable radicals such as a-keto radical, a-alkoxyalkyl radical, and the benzyl radical for which the aforementioned radical formylation system with CO cannot be applied. The high reactivity of phenyl sulfonyl oxime ether is supported by kinetic studies [29]. The approximate rate constants for the addition of a primary alkyl radical to this phenyloxime ether was determined to be k=9.6xl0 M s at 25 °C, which is 1.8 times faster than the addition to aery-... [Pg.102]

This was interpreted as indicating that the reactions have related mechanisms and that the mechanisms arc HT-like. It may be possible, however, that (here is a dose race between a concerted mechanism and the FT mechanism or lhal a spectrum of Itvbrid mechanisms are in operation running from clear cut HT with secondary and tertiary reagents to hybrid radical-concerted mechanisms (see (lie following section) for primary reagents. [Pg.10]

Consider now a series of compounds A, that react with two reagents, Bi and B2. A good example is the reactions of alkyl radicals (the A, s are R") with BrCCl3 (B ) and CCI4 (B2). The radicals considered are planar, tt radicals that are primary, secondary, and tertiary, but not bridgehead.21 The scheme is... [Pg.238]

Owing to the reactions of the initial primary radiolysis products among themselves, as in Eqs. (11-58)—(11-62), it is usually necessary to add another reagent to remove the unwanted ones. For example, to study reactions of e alone, one must work in neutral or basic solution to avoid its destruction by HsO+ (see Problem 11-12). Also, hydroxyl radicals and hydrogen atoms are removed from the system by prior addition of terf-butyl alcohol to give noninterfering products,... [Pg.269]

Not all the reactions in this chapter are actually nucleophilic substitutions. In some cases the mechanisms are not known with enough certainty even to decide whether a nucleophile, an electrophile, or a free radical is attacking. In other cases (such as 10-79), conversion of one compound to another can occur by two or even all three of these possibilities, depending on the reagent and the reaction conditions. However, one or more of the nucleophilic mechanisms previously discussed do hold for the overwhelming majority of the reactions in this chapter. For the alkylations, the Sn2 is by far the most common mechanism, as long as R is primary or secondary alkyl. For the acylations, the tetrahedral mechanism is the most common. [Pg.462]

Compounds containing susceptible C—H bonds can be oxidized to alcohols. " Nearly always, the C—H bond involved is tertiary, so the product is a tertiary alcohol. This is partly because tertiary C—H bonds are more susceptible to free-radical attack than primary and secondary bonds and partly because the reagents involved would oxidize primary and secondary alcohols further. In the best method, the reagent is ozone and the substrate is absorbed on silica gel. Yields as high as 99% have been... [Pg.914]

Decomposition of azo compounds and peroxides provides the alkoxyamine by the nitroxide-trapping of the primary radicals [29]. The radicals produced by hydrogen abstraction with oxy radicals are also trapped by the nitroxide [242, 243]. In the photoreaction, alkoxyamines were isolated with high yields [244]. The reactions of Grignard reagents with nitroxides [215] and the coupling reaction of sodium nitroxides with bromo compounds [234,235] are also used. The hydrolysis of 56 followed by the reaction with acyl or alkyl halides afforded alkoxyamines with various functional groups,63 (Eq. 68) [245-251] ... [Pg.118]

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See also in sourсe #XX -- [ Pg.91 ]



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Primary radicals

Primary reagents

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