Company Filing History:
2 out of 44 
1 out of 1,553 
1 out of 26 
Years Active: 1996-2002
Title: Marvin D. Rausch: Innovator in Metallocene Catalysis
Introduction
Marvin D. Rausch, a distinguished inventor based in Amherst, MA, has made significant contributions to the field of chemistry, specifically in the development of metallocene catalysts. With a portfolio of 9 patents, Rausch has continually pushed the boundaries of innovation and research in olefin polymerization.
Latest Patents
Among Rausch's latest patents is the invention titled "Tetrahydrofluorenyl containing group 4 metallocenes useful as catalysts for the polymerization of olefins". This patent focuses on novel silylene or ethylene bis(tetrahydrofluorenyl) metallocenes, which are synthesized and utilized as catalysts for olefin polymerization. Another notable patent is "Asymmetric silicon-bridged metallocenes useful as catalysts in the polymerization of α-olefins", emphasizing the preparation and use of these metallocenes in the polymerization process. Both innovations reflect Rausch’s commitment to advancing catalytic processes in chemistry.
Career Highlights
Throughout his career, Marvin D. Rausch has been associated with various institutions, including the Academy of Applied Science, where he has honed his expertise in metallocene research. His extensive work in this domain has paved the way for new methodologies in polymer science and has garnered recognition in the scientific community.
Collaborations
Rausch has collaborated with notable peers in his field, including James C. Chien and Emma J. Thomas. These partnerships have fostered a rich exchange of ideas and have contributed to the success of their joint research projects, enhancing both innovation and applications in metallocene catalysis.
Conclusion
Marvin D. Rausch stands as a prominent figure in the realm of innovations related to metallocene catalysts. With his impressive portfolio of patents and collaborative efforts, he continues to inspire new developments within the field of chemistry and catalysis. Rausch's work not only advances theoretical knowledge but also facilitates practical applications that significantly impact the polymerization industry.