Citation: Yu-Yin Wang, Chao-Qun Wang, Xiao-Qiang Hu, Yan Xia, a Yue Chi, Yi-Xin Zhang and and Zhong-Bao Jian. Benzosuberyl Substituents as a 'Sandwich-Like' Function in Olefin Polymerization Catalysis[J]. Chinese J. Polym. Sci. doi: 10.1007/s10118-021-2562-7 shu

Benzosuberyl Substituents as a "Sandwich-Like" Function in Olefin Polymerization Catalysis

  • Received Date: 2021-01-14

  • For the rational design of metal catalyst in olefin polymerization catalysis, various strategies were applied to suppress the chain transfer by bulking up the axial positions of the metal center, among which the ”sandwich” type turned out to be an efficient category in achieving high molecular weight polyolefin. In the α-diimine system, the “sandwich” type catalysts were built using the typical 8-aryl-naphthyl framework. In this contribution, by introducing the rotationally restrained benzosuberyl substituent into the ortho- position of N-aryl rings, a new class of “sandwich-like” -diimine nickel catalysts was constructed and fully identified. The rotationally restrained benzosuberyl substituents played a “sandwich-like” function by capping the nickel center from two axial sites. Compared to the nickel catalyst Ni1 bearing freely rotated benzhydryl substituent, Ni2 featuring benzosuberyl substituent enabled the increase (8 times) of polymer molecular weights from 8 kDa to 65 kDa in the polymerization of ethylene. By further increasing the steric bulk of another ortho- site of the N-aryl ring, the polymer molecular weight even reached an ultrahigh level of 833 kDa (Mw = 1857 kDa) using the optimized Ni3. Notably, these nickel catalysts could also mediate the copolymerization of ethylene with methyl 10-undecenoate, with Ni3 giving the highest copolymer molecular weight (88 kDa) and the highest incorporation of comonmer (2.0 mol%), along with high activity of up to 105 g mol−1 h−1.
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