Nanocomposite materials based on
poly(butyl methacrylate) and either
graphene oxide (GO) or functionalized graphene oxide (F-GO) were produced
using the in situ bulk radical polymerization technique. It was found
that the Hummers method results in a higher degree of oxidation, compared
to the Staudenmaier, whereas F-GO was produced using a silane-modifying
agent. Polymerization kinetics were studied both experimentally and
theoretically, and it was found that the presence of hydroxyl groups
in the surface of GO results in scavenging the primary initiator radicals,
thus reducing the initiator efficiency and the reaction rate, whereas
the number-average molecular weight of the polymer formed was increased.
The presence of F-GO affected the polymerization kinetics in a different
way resulting in partially grafted structures. The theoretical study
included the addition of a phenomenological transfer to the polymer
side-reaction to account for the polymerization occurring at the F-GO
surface.
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