Highly efficient FeCl₃ doped Mg(OEt)₂/TiCl₄-based Ziegler–Natta catalysts for ethylene polymerization

Seven Mg(OEt)₂/FeCl₃/SiCl₄/TiCl₄ type procatalysts supported on Mg(OEt)₂/FeCl₃ mixtures were prepared in order to unravel effect of Fe doping on the catalytic performance in ethylene polymerization. In polymerization experiments, the catalyst based on a support containing an optimum doping amount of 10 wt.% of FeCl₃, i.e. C-F₁₀-Si, exhibited an activity 2.4 times greater than that shown by the reference catalyst, C-M. The MW and bulk density of the produced polymers were increased, while the wax amount decreased using doped catalysts. In the next step, the copolymerization of ethylene with 1-hexene was carried out using C-M as reference and C-Fe₁₀-Si as the most efficient procatalysts. In copolymerization experiments, C-Fe₁₀-Si exhibited much higher activity and comonomer incorporation in comparison with reference catalyst. Finally, to shed light on possible interaction of TiCl₄ with doped and undoped catalysts, as well as their efficiency in ethylene polymerization, molecular simulation was performed. Energy results revealed that the doping does not alter significantly the capability of the Ti to insert ethylene monomer.