Synthesis of Functional
Polyolefins Using Cationic
Bisphosphine Monoxide–Palladium Complexes
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Abstract
The copolymerization of ethylene with polar vinyl monomers,
such
as vinyl acetate, acrylonitrile, vinyl ethers, and allyl monomers,
was accomplished using cationic palladium complexes ligated by a bisphosphine
monoxide (BPMO). The copolymers formed by these catalysts have highly
linear microstructures and a random distribution of polar functional
groups throughout the polymer chain. Our data demonstrate that cationic
palladium complexes can exhibit good activity for polymerizations
of polar monomers, in contrast to cationic α-diimine palladium
complexes (Brookhart-type) that are not applicable to industrially
relevant polar monomers beyond acrylates. Additionally, the studies
reported here point out that phosphine-sulfonate ligated palladium
complexes are no longer the singular family of catalysts that can
promote the reaction of ethylene with many polar vinyl monomers to
form linear functional polyolefins