Location History:
- Kuga, JP (1994)
- Yamaguchi, JP (1997)
Company Filing History:
Years Active: 1994-1997
Title: Tomoko Sueyoshi: Innovating Polyolefin and Cycloolefin Technology
Introduction: Tomoko Sueyoshi is a prominent inventor based in Kuga, Japan. With two patents to her name, she has significantly contributed to the field of polymer science. Her work focuses on innovative processes for producing polyolefins and cycloolefin copolymers, which play crucial roles in various applications.
Latest Patents: Tomoko's latest patents include a groundbreaking process for the preparation of polyolefin. This process involves polymerizing or copolymerizing olefins using a specific catalyst system. The method incorporates a metallocene compound alongside an organoaluminum oxy-compound, leading to efficient polymerization in a carefully controlled environment.
Another noteworthy patent is her process for preparing cycloolefin random copolymer pellets. This technique reduces the number of steps required for production while inhibiting mold staining during the molding process. By employing a phase separation phenomenon, the process yields concentrated copolymer phases that are extruded and pelletized for further use.
Career Highlights: Tomoko Sueyoshi is currently affiliated with Mitsui Petrochemical Industries, Ltd., where her research and development efforts continue to shape the polymer industry. Her contributions have not only advanced technological processes but have also enhanced the efficiency and performance of polymer products.
Collaborations: Throughout her career, Tomoko has collaborated with esteemed colleagues including Masaaki Kawasaki and Yoshio Miyake. These partnerships have fostered innovation and led to the successful realization of complex polymerization processes.
Conclusion: Tomoko Sueyoshi's achievements in the realm of polyolefin and cycloolefin technologies underscore her role as a trailblazer in polymer science. Her inventive spirit and collaborative endeavors are instrumental in pushing the boundaries of what is possible in the field, ultimately benefiting a wide range of industries reliant on advanced materials.