Modulating Co-monomer Selectivity in Olefin Polymerization Catalysts ID: 2021-050
An innovative technology designed to enhance olefin polymerization processes through non-covalent dispersion interactions.
Photo by starlineart - stock.adobe.com
Technology Overview
This technology involves a method to improve the selectivity and efficiency of olefin polymerization catalysts using non-covalent dispersion interactions. Developed at Brigham Young University and backed by Chevron Phillips Chemical Co., it represents a significant advancement in polymer production, with potential applications across various industries.
Key Advantages
- Enhanced selectivity in olefin polymerization processes
- Improved efficiency of group 4 olefin polymerization catalysts
- Potential for significant cost reductions in polymer production
- Backed by strategic partnerships and commercial interests
Problems Addressed
- Inefficiencies in current olefin polymerization catalysts
- Limited selectivity in co-monomer integration during polymerization
- High production costs associated with less efficient catalysts
Market Applications
- Materials science and engineering
- Chemical manufacturing and polymer production
- Advanced materials development for industrial applications
Additional Information
Technology ID: 2021-050
Sell Sheet: Download the Sell Sheet here
Market Analysis: Contact us for a more in-depth market report
Date Published: 28 March, 2025
Connect with the Tech Transfer to:
- Meet with the technology manager
- Receive additional information
- Request a marketing plan report