Company Filing History:
Years Active: 2016
Title: Innovator Tsuyoshi Okazaki: Pioneering Electrolytic Electrode Technology
Introduction
Tsuyoshi Okazaki is a distinguished inventor based in Hiratsuka, Japan, recognized for his significant contributions to the field of electrolytic electrodes. With one patent to his name, Okazaki has made notable advancements in the production of ozone and persulfuric acid, paving the way for innovative applications in electrochemical processes.
Latest Patents
Okazaki's patent revolves around an electrolytic electrode designed for various applications, including the electrolytic production of ozone and persulfuric acid, as well as the electrolytic oxidation of chromium. The invention features an electrode surface layer achieved through high-temperature heat treatment under a low oxygen partial pressure of 100 Pa or less. This unique structure incorporates a valve metal oxide film and includes both a valve metal layer and a noble metal—excluding silver—where the noble metal is finely precipitated and dispersed within the crystal grain boundaries of the valve metal. The crystal structure of the valve metal exhibits elongated grains in a vertical cross-section and maintains specific noble metal content at minimal levels, ensuring enhanced electrode performance.
Career Highlights
Tsuyoshi Okazaki is affiliated with Tanaka Kikinzoku Kogyo Co., Ltd., a leading company in the field of precious metals and advanced manufacturing technologies. His contributions to the industry through innovative electrochemical solutions are indicative of his expertise and commitment to enhancing technological processes.
Collaborations
During his innovative journey, Okazaki has worked closely with his coworker, Nobuyasu Ezawa. Their collaboration highlights the importance of teamwork in research and development, ultimately leading to pioneering advancements in electrolytic technology.
Conclusion
Tsuyoshi Okazaki's inventive spirit and commitment to innovation in electrolytic technology reflect his significant role in advancing this crucial field. With the continued development and application of his patented electrolytic electrode, he demonstrates the potential for impactful contributions to electrochemical processes and beyond.