Crystal Structures of Ziegler–Natta Catalyst Supports

Abstract

The crystal structures of three MgCl~2~⋅n EtOH complexes with n=1.5, 2.8, and 3.3 have been fully determined. Such complexes are the fundamental precursors for Ziegler–Natta polymerization catalysts used to produce polyolefins on a multimillion‐ton scale worldwide. The ab initio structure solution showed that the structure of MgCl~2~⋅n EtOH complexes with n=1.5 and 2.8 are based on ribbons of metal‐centered octahedra, whereas for n=3.3 this chainlike arrangement breaks into a threadlike structure of isolated octahedra linked by hydrogen bonds. A clear correlation between catalyst performance and the crystal structure of precursors has been found, and reveals the fundamental role of the latter in determining catalyst properties. The direct knowledge of building blocks in the precursor structures will help to develop more accurate models for activated catalysts. These models will not require the arbitrary and oversimplified assumption of locating the catalyst active sites on selected cut surfaces of the α‐MgCl~2~ crystal lattice.