Polymerization
of polar styrene monomers and their copolymerization
with ethylene are of great interest in both academia and industry.
In comparison with hundreds of literature reports on palladium catalyzed
(co)polymerization using polar vinyl monomers, studies on palladium
catalyzed (co)polymerization using polar styrene monomers have received
much less attention and remains almost unexplored. In this contribution,
by employing the benchmark cationic α-diimine and neutral phosphine-sulfonate
palladium catalysts 1 and 2, a comprehensive
picture on (co)polymerization of polar styrene monomers including o-F, o-Cl, o-MeO, o-CN, o–OH, o-COOH, o-CHO, o-NO2, o-NH2, o-NMe2, o-PPh2, m-F, m-MeO, p-F, p-MeO, p-vinyl, and
2,3,4,5,6-F5 functional groups was built. By utilizing
the cationic catalyst 1, due to the formation of the
cationic π–η3-benzyl chelate, homopolymerization
of polar styrene monomers and the copolymerization with ethylene only
generated atactic polar styrene homopolymers or produced no polymer,
depending on the type of polar styrene monomers. In contrast, by using
the neutral catalyst 2, homopolymerization of polar styrene
monomers was not possible, but copolymerization with ethylene showed
good activities (up to 290 kg mol–1 h–1) to afford a family of new ethylene/polar styrene copolymers with
high incorporations (up to 6.3 mol %). Interestingly, the incorporated
comonomer units are prone to an average distribution at the saturated
chain end, in-chain, and unsaturated chain end. The origin of this
unexpected observation was explored through stoichiometric insertion
studies using selected polar styrene comonomers.