Company Filing History:
Years Active: 2000-2002
Title: Innovations of Theodore J Knutson
Introduction
Theodore J Knutson is a prominent inventor based in Edina, MN (US). He has made significant contributions to the field of polymer chemistry, particularly in the development of advanced anionic polymerization techniques. With a total of 7 patents, his work has had a substantial impact on the production of high-performance elastomers.
Latest Patents
Knutson's latest patents include innovative methods for creating macro-branched diene rubbers. One notable patent describes anionic polymerization initiators that are solid supported and multiply metalated with Group IA alkali metal atoms. These initiators are designed to produce extremely high molecular weight branched diene polymers. The resulting polymers exhibit desirable properties, such as a controlled molecular weight distribution and the ability to absorb hydrocarbon solvents and oils. Another significant patent focuses on gas phase anionic polymerization of diene elastomers, providing solid supported anionic catalysts that facilitate the production of high molecular weight branched diene polymers, including various types of rubber. These advancements lead to materials that are not only durable but also exhibit reduced hysteresis properties.
Career Highlights
Theodore J Knutson is currently associated with Bridgestone Corporation, where he continues to innovate in the field of polymer technology. His work has been instrumental in enhancing the performance characteristics of elastomeric compounds used in various applications, including tires.
Collaborations
Knutson has collaborated with notable colleagues such as William L Hergenrother and William M Cole. Their combined expertise has contributed to the successful development of advanced polymerization techniques.
Conclusion
Theodore J Knutson's contributions to polymer chemistry and his innovative patents have significantly advanced the field. His work continues to influence the development of high-performance materials that meet the demands of modern applications.