Company Filing History:
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Years Active: 1982-1985
Title: Kinya Yamaguchi: Innovator in High Polymer Technologies
Introduction
Kinya Yamaguchi is a noteworthy inventor based in Tokyo, Japan, recognized for his significant contributions to the field of high polymers. With a total of three patents to his name, Yamaguchi has made strides in the development of materials that hold promise for various applications, particularly in battery technology.
Latest Patents
Among his latest innovations, Yamaguchi has developed two critical patents associated with reinforced acetylene high polymers. The first patent focuses on a reinforced acetylene high polymer shaped article, which includes an acetylene high polymer and a fibrous material, enhancing its mechanical properties. This product is particularly valuable for use as an electrode in batteries. The second patent pertains to the design of a battery that incorporates an acetylene high polymer electrode, utilizing a unique electrolyte capable of ionizing into various dopants. This innovative combination leads to improved performance and efficiency in energy storage systems.
Career Highlights
During his career, Kinya Yamaguchi has worked with prominent organizations such as Showa Denko Kabushiki Kaisha and Hitachi, Ltd., where he has likely honed his expertise in polymer science and battery technology. His innovative spirit and technical skills have enabled him to create breakthroughs that advance the field of high-performing materials.
Collaborations
Yamaguchi has collaborated with esteemed colleagues, including Masaaki Kira and Yukio Kobayashi. These partnerships have likely played a vital role in the innovation process, as teamwork often leads to more successful outcomes in complex fields such as polymer research.
Conclusion
Kinya Yamaguchi's contributions to the development of reinforced high polymers and battery technologies exemplify the impact of innovative thinking in material science. His inventions not only reflect his dedication to advancing technology but also highlight the importance of collaboration in achieving significant scientific breakthroughs. As he continues his work, the potential applications of his inventions may pave the way for future advancements in energy storage and materials engineering.