Gjm. Gruter et al., NUCLEAR VERSUS SIDE-CHAIN BROMINATION OF METHYL-SUBSTITUTED ANISOLES BY N-BROMOSUCCINIMIDE, Journal of organic chemistry, 59(16), 1994, pp. 4473-4481
The reactions of methyl-substituted anisoles with N-bromosuccinimide i
n CCl4 are reported. In the absence of a catalyst and under irradiatio
n, some of these substrates undergo nuclear bromination in competition
with the well-known side-chain bromination. With 2-methylanisole and
with 2,6-dimethylanisole, nuclear bromination is not observed, whereas
with 3,5-dimethylanisole, nuclear bromination at the 4-position is th
e dominating reaction. Investigation of the reactivity of several othe
r methyl-substituted anisoles revealed the following general trend: me
thyl-substituted anisoles are attacked at the position para to the met
hoxy group rather than at the side chain when (at least) two methyl gr
oups are present at positions 3 and 5. When positions 2 and 6 are both
occupied, nuclear bromination is retarded; in 2,6-dimethylanisole and
in 2,3,6-trimethylanisole, only side-chain bromination is observed. I
n contrast, in 2,3,5,6-tetramethylanisole, the 4-position is sufficien
tly reactive to be brominated, because the decrease in reactivity by t
he presence of two methyl groups at positions 2 and 6 is overruled by
the two additional methyl groups at positions 3 and 5; as a result, bo
th nuclear and side-chain bromination occur. The observed chemospecifi
city can be rationalized by a difference in mechanism: the side-chain
bromination is a radical reaction, while the nuclear bromination is an
electrophilic aromatic substitution reaction, which is so far contrar
y to expectation, as irradiation had been expected to favor radical pr
ocesses.