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Bimolecular reactions radical anions

Therefore, the sequence of reactions illustrated in Fig. 1 catalytically (the anthraquinone is regenerated) injects a radical cation into a DNA oligonucleotide that does not simultaneously contain a radical anion. As a result, the lifetime of this radical cation is determined by its relatively slow bimolecular reaction with H20 (or some other diffusible reagent such as 02- ) and not by a rapid intramolecular charge annihilation reaction. This provides sufficient time for the long distance migration of the radical cation in DNA to occur. [Pg.152]

Productive bimolecular reactions of the ion radicals in the contact ion pair can effectively compete with the back electron transfer if either the cation radical or the anion radical undergoes a rapid reaction with an additive that is present during electron-transfer activation. For example, the [D, A] complex of an arene donor with nitrosonium cation exists in the equilibrium with a low steady-state concentration of the radical pair, which persists indefinitely. However, the introduction of oxygen rapidly oxidizes even small amounts of nitric oxide to compete with back electron transfer and thus successfully effects aromatic nitration80 (Scheme 16). [Pg.230]

The attachment of an electron to an organic acceptor generates an umpolung anion radical that undergoes a variety of rapid unimolecular decompositions such as fragmentation, cyclization, rearrangement, etc., as well as bimolecular reactions with acids, electrophiles, electron acceptors, radicals, etc., as demonstrated by the following examples.135"137... [Pg.237]

Dopamine (10) has also been the subject of some study. Maity and coworkers17 have studied the pulse radiolysis or /-irradiation induced reduction of the protonated form. In this instance the addition of an electron affords the radical anion 11 with a bimolecular rate constant for the reaction of 2.5 x 108 M-1 s-1. [Pg.825]

At pH < 7 the nitroxyl radicals do not undergo an observable heterolysis (khs 10 s ), but decay by bimolecular reactions. However, in basic solution an OH -catalyzed heterolysis takes place to yield the radical anion of the nitrobenzene and an oxidized pyrimidine. In the case of the nitroxyls substituted at N(l) by H (i.e. those derived from the free bases), the OH catalysis involves deprotonation at N(l) which is adjacent to the reaction site [= C(6)] (cf. Eq. 15) [26] ... [Pg.134]

CgH (n = 6, 7, 8). A novel collision-induced isomerization of CgH7 (10a), which has a sttained allenic bond, to (lOyS) has been reported to occur upon SIFT injection of (10a) at elevated kinetic energies (KE) and collision with helium. In contrast, radical anions (9) and (11) undergo electron detachment upon collisional excitation with helium. Bimolecular reactions of the ions with NO, NO2, SO2, COS, CS2, and O2 have been examined. The remarkable formation of CN on reaction of (11) with NO has been attributed to cycloaddition of NO to the triple bond followed by eliminative rearrangement. [Pg.351]

It can be seen from the relative rate constants shown in Sch. 1 that the products formed will depend on the reaction conditions [26]. The production of formate, as shown by the right-hand reaction in Sch. 1, will be enhanced in protic solvents or in more acidic solutions. In water, formic acid is the main product. The production of CO, as shown by the left-hand reaction in Sch. 1, will be enhanced in rapidly stirred solutions in which locally high concentrations of the "C02 radical anion cannot buildup. This will decrease the probability of a bimolecular reaction between 02 radical anions. In quiet solutions and high current densities, the C02 radical anion concentration should be high in the diffusion layer, favoring formation of oxalate. [Pg.209]

C olvents have different effects on polymerization processes. In radical polymerizations, their viscosity influences the diffusion-controlled bimolecular reactions of two radicals, such as the recombination of the initiator radicals (efficiency) or the deactivation of the radical chain ends (termination reaction). These phenomena are treated in the first section. In anionic polymerization processes, the different polarities of the solvents cause a more or less strong solvation of the counter ion. Depending on this effect, the carbanion exists in three different forms with very different propagation constants. These effects are treated in the second section. The final section shows that the kinetics of the... [Pg.13]

However, the competition between Srn 1 and polar abstraction mechanisms is complicated in certain reactions by the formation of disulfides which is inhibited by radical and radical anion traps, and requires photolysis [23, 24]. These results implicate a third possibility, the chain SET redox mechanism (Srt2, i.e. substitution, electron transfer, bimolecular), Scheme 10.34. This alternative mechanism occurs when the intermediate radical anion can be intercepted by the thiolate (Equation 10.23) prior to the dissociation required in the SrnI mechanism (Equation 10.17 in Scheme 10.29). It becomes possible when either... [Pg.290]

Bimolecular reactions of radical anions are largely restricted to arene aocqRors owing to dteir generally more persistent character. The ambivalence of arene radical anions generally relates to the reactivity towards acids, electrophiles and electron acceptors. [Pg.861]

See other pages where Bimolecular reactions radical anions is mentioned: [Pg.30]    [Pg.89]    [Pg.23]    [Pg.61]    [Pg.265]    [Pg.10]    [Pg.152]    [Pg.10]    [Pg.278]    [Pg.1308]    [Pg.230]    [Pg.152]    [Pg.153]    [Pg.43]    [Pg.893]    [Pg.940]    [Pg.139]    [Pg.40]    [Pg.271]    [Pg.134]    [Pg.89]    [Pg.125]   
See also in sourсe #XX -- [ Pg.256 , Pg.257 , Pg.258 ]



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