The MAO/BHT (MAO = methylaluminoxane; BHT = 2,6-di-tert-butyl-4-methylphenol) cocatalyst for olefin polymerization has been investigated by NMR spectroscopy. It has been found that it consists of oligomeric [AlOMe0.9(bht)(0.1)](n) cages and monomeric MeAl(bht)(2) (bht = deprotonated BHT). Diffusion NMR indicates an average n for Al clusters of 62-96, i.e., 2-3 times higher than that estimated for unmodified MAO under analogous conditions (n approximate to 26-41). The reactivity of MAO/BHT has been explored by monitoring the activation of the Cp*-phosphinimide titanium dichloride precatalyst Cp*(tBu(3)P=N)TiCl2. Comparison with independently synthesized model species and DFT modeling allowed characterization of the reaction mixtures obtained at varying aluminum to titanium ratios. Homodinuclear adducts [Cp*(tBu(3)P=N)TiX](2)(mu-Y)(+) (X, Y = Me or Cl) forming outer sphere ion pairs (OSIPs) with MAO/BHT-derived anions are dominant at low Al/Ti ratios, whereas mononuclear inner sphere ion pairs [Cp*(tBu(3)P=N)TiX](+)[MAO/BHT](-) are formed at high Al/Ti ratios; both types of species are found to be viable precursors for the cationic active species. Activation of dibenzyl analogue Cp*(tBu(3)P=N)TiBn2 results in the clean formation of [Cp*(tBu(3)P=N)Ti-Bn](+)[MAO/BHT](-) OSIP, giving sharp H-1 and P-31 NMR signals; this reaction was exploited to quantify the amount of strongly acidic sites on Al clusters, shedding further light on the structure and properties of MAO/BHT.

BHT-Modified MAO: Cage Size Estimation, Chemical Counting of Strongly Acidic Al Sites, and Activation of a Ti-Phosphinimide Precatalyst

Zaccaria F.;Zuccaccia C.
;
Macchioni A.;
2019

Abstract

The MAO/BHT (MAO = methylaluminoxane; BHT = 2,6-di-tert-butyl-4-methylphenol) cocatalyst for olefin polymerization has been investigated by NMR spectroscopy. It has been found that it consists of oligomeric [AlOMe0.9(bht)(0.1)](n) cages and monomeric MeAl(bht)(2) (bht = deprotonated BHT). Diffusion NMR indicates an average n for Al clusters of 62-96, i.e., 2-3 times higher than that estimated for unmodified MAO under analogous conditions (n approximate to 26-41). The reactivity of MAO/BHT has been explored by monitoring the activation of the Cp*-phosphinimide titanium dichloride precatalyst Cp*(tBu(3)P=N)TiCl2. Comparison with independently synthesized model species and DFT modeling allowed characterization of the reaction mixtures obtained at varying aluminum to titanium ratios. Homodinuclear adducts [Cp*(tBu(3)P=N)TiX](2)(mu-Y)(+) (X, Y = Me or Cl) forming outer sphere ion pairs (OSIPs) with MAO/BHT-derived anions are dominant at low Al/Ti ratios, whereas mononuclear inner sphere ion pairs [Cp*(tBu(3)P=N)TiX](+)[MAO/BHT](-) are formed at high Al/Ti ratios; both types of species are found to be viable precursors for the cationic active species. Activation of dibenzyl analogue Cp*(tBu(3)P=N)TiBn2 results in the clean formation of [Cp*(tBu(3)P=N)Ti-Bn](+)[MAO/BHT](-) OSIP, giving sharp H-1 and P-31 NMR signals; this reaction was exploited to quantify the amount of strongly acidic sites on Al clusters, shedding further light on the structure and properties of MAO/BHT.
2019
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1455613
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