Company Filing History:
Years Active: 2001-2002
Title: Kunio Ito: Innovator in Fullerene-Added Ceramics
Introduction
Kunio Ito is a prominent inventor based in Tokyo, Japan. He has made significant contributions to the field of materials science, particularly in the development of fullerene-added ceramics. With a total of 2 patents, his work has garnered attention for its innovative approaches and practical applications.
Latest Patents
Kunio Ito's latest patents include two notable inventions. The first is titled "Fullerene-Added Lead Zirconate Titanate and Method of Producing the Same." This invention presents a novel method for producing fullerene-added lead zirconate titanate, where zirconium alkoxide, titanium alkoxide, and lead acetate are dissolved in an organic solvent with a stabilizer to form a colloidal solution. The addition of fullerene allows for the formation of a perovskite phase at a lower temperature, specifically between 400 to 500°C, compared to conventional methods. The second patent is "Method of Producing Fullerene-Dispersed Ceramics." This method involves dissolving fullerene and a surfactant in a solution of metallic compounds to create a colloidal solution. By adjusting the hydrogen ion concentration, a gel is formed, which is then dried and heat-treated to produce a stable fullerene-dispersed ceramic powder.
Career Highlights
Kunio Ito is affiliated with The University of Tokyo, where he conducts research and develops innovative materials. His work has not only advanced the field of ceramics but has also opened new avenues for applications in various industries.
Collaborations
Throughout his career, Kunio Ito has collaborated with notable colleagues, including Kun-ichi Miyazawa and Toru Kuzumaki. These collaborations have contributed to the success and impact of his research.
Conclusion
Kunio Ito's contributions to the field of materials science, particularly through his patents on fullerene-added ceramics, highlight his innovative spirit and dedication to advancing technology. His work continues to influence the development of new materials with practical applications.