Structural diversity in substituted aminosilyl‐aminopyridinate metal (Zr or Fe) complexes: Synthesis, structures, and ethylene polymerization

6 Fe6), differing in the steric/electronic properties of the substituents appended to the N-naphthalen-1yl groups, have been synthesized in reasonable yield via a facile one-pot route. The molecular structure of five-coordinate Fe3 emphasizes the steric hindrance imposed on the iron center by the CHMePh-substituted bicyclic aromatic groups. With either methylaluminoxane (MAO) or modified methylaluminoxane (MMAO) as activator, the complexes displayed a wide range in catalytic activities for ethylene polymerization with the order for MMAO being: Fe3 > Fe2 @ Fe1 > Fe4 @ Fe5 while Fe6 was almost inactive. In particular, Fe3/MMAO exhibited exceptionally high activity at 70 °C (up to 15.7 × 10 6 g (PE) mol À 1 (Fe) h À 1 ) affording low molecular weight (2.97 kg mol À 1 ) polyethylene of high linearity and narrow dispersity (M w /M n = 1.38). Moreover, the same catalyst displayed excellent thermostability by maintaining high activity at 90 °C (up to 9.26 × 10 6 g (PE) mol À 1 (Fe) h À 1 ). Similar activity trends were observed with MAO though the catalysts were in general less active but formed distinctly higher molecular weight polyethylene.

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Naphthalenyl‐Substituted α,α′‐Bisimino‐2,3 : 5,6‐Bis(pentamethylene)pyridines as Thermally Robust Supports for Iron Ethylene Polymerization Catalysts

Lin

Zhang

Solan

et al. 2021

Eur J Inorg Chem

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Zirconium Halide Complexes: Synthesis, Structure, and Practical Applications

Sharutin,

Tarasova

2023

rev. and adv. in chem.

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Structural diversity in substituted aminosilyl‐aminopyridinate metal (Zr or Fe) complexes: Synthesis, structures, and ethylene polymerization

Cited by 2 publications

References 57 publications

Naphthalenyl‐Substituted α,α′‐Bisimino‐2,3 : 5,6‐Bis(pentamethylene)pyridines as Thermally Robust Supports for Iron Ethylene Polymerization Catalysts

Naphthalenyl‐Substituted α,α′‐Bisimino‐2,3 : 5,6‐Bis(pentamethylene)pyridines as Thermally Robust Supports for Iron Ethylene Polymerization Catalysts

Zirconium Halide Complexes: Synthesis, Structure, and Practical Applications

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