G. Merga et al., REACTIONS OF OH AND SO(4)(CENTER-DOT-)WITH SOME HALOBENZENES AND HALOTOLUENES - A RADIATION-CHEMICAL STUDY, Journal of physical chemistry, 98(37), 1994, pp. 9158-9164
The optical absorption and kinetic characteristics of the transients f
ormed in the reactions of OH and SO4.- with bromobenzene, ortho and me
ta-isomers of chloro- and bromobenzenes, and monobromotoluenes have be
en studied by pulse radiolysis technique. The rates for OH reaction ar
e generally higher (k = (1.7-4.4) X 10(9) M(-1)s(-1)) than those found
for the SO4.- reaction (k = (0.4-2.3) X 10(9) M(-1) s(-1)). rho(+) va
lues of -0.4 for OH and 1.2 for SO4.- reactions were obtained from the
Hammett analysis. The formation of substituted hydroxycyclohexadienyl
radicals (lambda(max) = 315-330 nm) is the major reaction channel, an
d the phenoxyl type radical (lambda greater than or equal to 400 nm) f
ormation is an additional minor process in the SO4.- reaction. Abstrac
tion of H by SO4.- from the -CH3 group is only significant with the pa
ra-isomers of bromo- and chlorotoluenes. This result is in accord with
the observed yields (70% of SO4.-) of the products resulting from the
oxidation of the 4-chlorobenzyl radical in the presence of K3Fe(CN)(6
) under steady-state conditions. the total yields of the phenolic prod
ucts accounting for > 90% of OH and SO4.- suggest that the attack a th
e ipso positions is considerably small. The rate constants for OH reac
tions relative to benzene at positions 3 and 6 of 2-chlorotoluene and
positions 2 and 3 of 4-chlorotoluene are between 1.18 and 1.39, indica
ting that the directing effects of -CH3 and Cl groups are comparable.
This is also reflected in the additive effects of activation of the or
tho and para-positions and deactivation of meta-positions by these sub
stituents in 3-chlorotoluene.