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Axial Anagostic Interaction in α-Diimine Nickel Catalysts: An Ultraefficient Occupation Strategy in Suppressing Associative Chain Transfers to Achieve UHMWPEs

Xiaohua Wang, Lishuang Ma, Bo Dong, Chunyu Zhang, Xuequan Zhang, Heng Liu

2025Macromolecules20 citationsDOI

Abstract

Axial anagostic bond Mt···H–C can occupy the apical site of d 8 square planar metal complexes, which is highly desired, yet never explored, for olefin polymerization because of its capability to suppress associative chain transfer to access high molecular weight polyolefin products. In this research, we present a method for how such axial anagostic interaction Ni···H–C can be constructed into α-diimine NiBr 2 complexes, and more importantly, demonstrate its pivotal role in improving the overall ethylene polymerization performance, including (i) ultrahigh efficiency in suppressing associative chain transfer to afford UHMWPEs with M w up to 724.2 × 10 4 g/mol, (ii) significantly impeded decomposition of the cationic active species that brings in better storage stability, and (iii) higher branched nature of the PE products that guarantee a well-controlled living fashion for the whole polymerization process even when M w reaches ultrahigh levels. With the aid of DFT calculations, the nature of such an anagostic bond and its influence on each step of the polymerization process are also elucidated.

Topics & Concepts

DiimineAssociative propertyNickelCatalysisChain (unit)ChemistryStereochemistryCombinatorial chemistryComputational chemistryOrganic chemistryPhysicsMathematicsPure mathematicsAstronomyOrganometallic Complex Synthesis and CatalysisCarbon dioxide utilization in catalysisCatalytic Alkyne Reactions
Axial Anagostic Interaction in α-Diimine Nickel Catalysts: An Ultraefficient Occupation Strategy in Suppressing Associative Chain Transfers to Achieve UHMWPEs | Litcius