Company Filing History:
Years Active: 1982-1987
Title: The Innovations of Mark S. Delaney: A Pioneer in Polymer Chemistry
Introduction
Mark S. Delaney, based in Midland, MI, has made significant contributions to the field of polymer chemistry, holding three notable patents. His work primarily focuses on methods and catalysts for the polymerization of ethylene and its derivatives, showcasing his expertise and innovation in material science.
Latest Patents
1. **Initiator and Method for Polymerizing Ethylene**: This patent reveals a complex of an alkyllithium compound and 1,2-dipyrrolidinoethane, which serves as an initiator for the polymerization of ethylene and ethylene block copolymers. It highlights Delaney's advancements in improving polymerization processes.
2. **Heterogeneous Organometallic Catalysts Containing a Supported Titanium**: In this patent, Delaney describes catalyst compositions that combine supported titanium compounds, like titanium tetraisopropoxide supported on magnesium dichloride, with other metallic catalysts. This innovation paves the way for more efficient polymerization of α-olefins, emphasizing his contribution to catalysis in polymer production.
Career Highlights
Mark S. Delaney has garnered experience working for prestigious organizations, including The Dow Chemical Company and the University of California. His career in research and development has allowed him to be at the forefront of innovations in polymer chemistry, where he has applied theoretical knowledge to practical applications.
Collaborations
Throughout his career, Delaney has collaborated with notable individuals like William Monroe Coleman, III, and Gregory F. Schmidt. These partnerships have enriched his research endeavors and have contributed to his success as an inventor in the realm of polymer science.
Conclusion
With a focus on polymerization and catalyst development, Mark S. Delaney has established himself as a significant figure in material science. His patents reflect the innovative approaches he has taken to enhance the efficiency and effectiveness of polymer production. As he continues to work at the intersection of academia and industry, Delaney's contributions will likely lead to further advancements in the field.