Company Filing History:
Years Active: 2006
Title: **Syunji Tago: Innovator in Polymer Chemistry**
Introduction
Syunji Tago, located in Niigata, Japan, is an accomplished inventor known for his contributions to the field of polymer chemistry. With a focus on enhancing the processes involved in suspension polymerization, Tago has made significant strides in developing innovative materials that improve the efficiency and effectiveness of various industrial applications.
Latest Patents
Tago holds a patent titled "Dispersion stabilizer for suspension polymerization of vinyl compound and method of producing the same." This invention presents a novel dispersion stabilizer that fulfills stringent performance requirements for suspension polymerization. The invention involves a method to produce a vinyl alcohol polymer by heat-treating a preceding form of the polymer under controlled conditions, resulting in increased effectiveness for use in suspension polymerizations.
Career Highlights
Syunji Tago is currently associated with Kuraray Co., Ltd., a prominent company in the field of chemical manufacturing. His dedication to research and development has led to the successful creation of a unique dispersion stabilizer that addresses specific challenges faced in polymerization processes, highlighting his skill as an inventor and innovator within the industry.
Collaborations
Throughout his career, Tago has collaborated with esteemed colleagues such as Masaki Kato and Kazuyuki Somemiya. This teamwork reflects the strong collaborative spirit present within Kuraray Co., Ltd., fostering an environment conducive to innovation and the development of breakthrough technologies.
Conclusion
Syunji Tago's inventive work and patent contributions in dispersion stabilization have positioned him as a notable figure in polymer chemistry. His continued efforts at Kuraray Co., Ltd. underscore his commitment to advancing the capabilities of suspension polymerization, which will have lasting impacts on various industrial applications. The innovations from Tago and his collaborative network serve to inspire future developments in the field.