Company Filing History:
Years Active: 2011-2013
Title: **Shinji Hibino: Innovator in Polymer Microparticle Production**
Introduction
Shinji Hibino, based in Nagoya, Japan, has made significant contributions to the field of polymer science. With a focus on the production of high-quality polymer microparticles, Hibino is recognized for his innovative approaches that enhance both productivity and quality in manufacturing processes.
Latest Patents
Hibino holds two patents related to the process of producing polymer microparticles. His latest patents involve a method of creating uniform microparticles within the size range of several to tens of micrometers. This process utilizes inverse suspension polymerization of a vinyl monomer, integrating an oil-soluble oxidizing agent and a water-soluble reducing agent in the polymerization process. By feeding the oxidizing agent after the reducing agent, Hibino's method ensures improved dispersion stability and reduced aggregation, making it a significant advancement in the production of polymer microparticles.
Career Highlights
Throughout his career, Shinji Hibino has worked with reputable companies, including Toagosei Company, Ltd. and Taogosei Co., Ltd. His extensive expertise and commitment to innovation have contributed to the success of these organizations, which are known for their advancements in chemical and polymer production.
Collaborations
Hibino has collaborated with several professionals in his field, including Hideo Matsuzaki and Akihiro Gotou. These collaborations have allowed for the exchange of ideas and innovations, further enhancing the development of techniques integral to polymer science.
Conclusion
Shinji Hibino's work in the production of polymer microparticles is redefining manufacturing processes within the polymer industry. His patented methods exemplify the blend of innovation and practicality, leading to higher quality products and greater efficiency in production. As the field of polymer science continues to evolve, Hibino's contributions will undoubtedly play a pivotal role in shaping future advancements.