Geometry and local environment of surface sites in Vanadium-based Ziegler-Natta catalysts from 51V solid-state NMR Spectroscopy

19 October 2023, Version 3
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Since its emergence over 50 years ago, the structure of surface sites in Ziegler-Natta catalysts, which are responsible for a major fraction of the world’s supply of polyethylene (PE) and polypropylene (PP), has remained elusive. This is in part due to the complexity of the systems that involve multiple synthetic steps and components, namely the MgCl2 support, a transition-metal chloride, and several organic modifiers, known as donors, that are used prior and in some instances during the activation step with alkyl aluminum. Due to the favorable NMR properties of V and its use in Ziegler-Natta catalysts, we utilize 51V solid-state NMR spectroscopy to investigate the structure of VOCl3 on MgCl2(thf)1.5. The resulting catalyst shows similar ethylene polymerization activity as its Ti analogues. Using carefully benchmarked DFT calculations, the experimental 51V NMR signature was analyzed to elucidate the structure of the surface sites. Using this approach, we demonstrate that the 51V NMR signature contains information about the coordination environment, i.e. the type of ancillary, ligands and the morphology of the MgCl2 support. Analysis of the NMR signatures shows that the adsorption of VOCl3 on MgCl2(thf)1.5 generates a well-defined hexacoordinated V-oxo species containing one alkoxy and four chloride ligands, whose local geometry results from the interaction with an amorphous MgCl2 surface. This study illustrates how NMR spectroscopy, which is highly sensitive to the local environment of the investigated nuclei, here V, enables us to identify the exact coordination sphere and to address the effect of support morphology on surface site structures.

Keywords

Ziegler-Natta Catalyst
NMR Spectroscopy
DFT Modeling
Surface sites

Supplementary materials

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Description
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Supporting Information
Description
Preparational Details, 51V solution NMR, 51V solid-state NMR, PXRD Data, DFT Details.
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