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[ACS Catalysis] Development of Group 3 Catalysts for Alternating Copolymerization of Ethylene and Styrene Derivatives
writer:Shihui Li, Dongtao Liu, Zichuan Wang, Dongmei Cui*
keywords:Alternating Copolymerization, Ethylene, Polar Styrenes
source:期刊
Issue time:2018年

Alternating copolymers have the clearest and most defined microstructures among manmade polymers, having been promising building blocks to access synthetic polymers able to mimic biomaterials. Herein we report the catalytic behaviors of rare-earth metal-based catalyst systems toward the direct copolymerization of ethylene with a series of unmasked polar styrenes and nonpolar styrenes. For the copolymerization of ethylene with para-methoxystyrene, the pyridyl side-armed fluorenyl-supported yttrium catalyst was inert, while its scandium analogue displayed moderate activity to give a random copolymer; the half-sandwich fluorenyl scandium catalyst provided a gel product. In contrast, the methyl-substituted N-heterocyclic carbene (NHC) side-armed fluorenyl scandium catalyst showed the highest activity, which was 10 times higher than its analogue bearing the steric bulky trimethylphenyl-substituted NHC fluorenyl ligand, although it could not initiate any polar styrene homopolymerization. The catalytic performance was extended to the other polar styrenes, such as meta-methoxystyrenes, 6-methoxy-2-vinylnaphthalene, para-methylthiostyrene, diphenyl(4-vinylphenyl)phosphine, and para-(N,N-diethylamino)styrene. All of the resultant copolymers are composed of pseudo-alternating microstructures despite polymerization conditions. In particular, when para-(N,N-dimethylamino)styrene was used as the comonomer, a perfect alternating product was generated with an as high as 83% comonomer conversion.