AROMATIC NITRO COMPOUNDS 215Stopping the polymerization consisted here in the formation of a nitro compound
(I) and an ether (IV).
Bartlett and Kwart [81] gave the figures referring to the so-called inhibition
constants in the polymerization of vinyl acetate under influence of various
substances, and mainly nitro compounds (Table 27).TABLE 27INHIBITION CONSTANTS IN THE POLYMERIZATION OF VINYL ACETATE AT 45°CInhibitorNitrobenzene
p- Nitrotoluene
Dinitrodurene
o- Dinitrobenzene
m- Dinitrobenzene
p- Dinitrobenzene
sym-Trinitrobenzene
SulphurZ 1
(initial inhibition constant)38
40
2.5
96
105
267
890
410More recent investigations by Ihrig and Wong [83] in which the authors used
optically active nitrodiphenyl derivatives for studying the mechanism of the reaction,
confirmed the second scheme, i.e. the attack on a growing radical by a nitro
group.
Recently Inamoto and Simamura [74] investigated the interaction of l-cyano-
1-methylethyl radicals and various nitro compounds (nitrobenzene, m- dinitroben-
zene, nitromethane, tetranitromethane) and Bevington and Ghanem [84] have studied
the effects of picric acid and m- dinitrobenzene on the sensitized radical polymeri-
zation of styrene. Picric acid proved to be a rather inefficient inhibitor. m- di-
nitrobenzene was found to be a polymerization retardant. By using^14 C-labelled
specimens of the nitro compounds the authors determined the amounts of nitro
compounds incorporated in the polymer. The average number of retardant mole-
cules per polymer molecule was found to be 0.5-0.7.
On the basis of these experiments and of those of Inamoto and Sinamura,
Bevington and Ghanem suggest the interaction of polymer radical with m- dinitro-
benzene is likely to be:
(36a)where P represents a polystyrene chain with a terminal initiator fragment.