Yoshiteru Mizukoshi

Title: **Yoshiteru Mizukoshi: Innovator in Photocatalyst Technology**

Introduction

Yoshiteru Mizukoshi, an innovative inventor based in Sendai, Japan, has made a significant contribution to the field of photocatalysis through his invention of rutile-type titanium dioxide. His work focuses on producing titanium dioxide with exceptional photocatalytic activity and super-hydrophilic properties by employing a straightforward process suitable for industrial scale production.

Latest Patents

Mizukoshi holds a patent for his original invention: a rutile-type titanium dioxide photocatalyst. This innovative photocatalyst is produced through anodic oxidation techniques applied to a base material made of titanium or a titanium alloy. By applying high voltage or conducting anodic oxidation under high current density conditions, a film is formed on the surface. This film can then undergo heat treatment, resulting in the production of rutile-type titanium dioxide that possesses remarkable crystallinity.

Career Highlights

Mizukoshi's career has been marked by his affiliation with prestigious institutions such as Tohoku University and Osaka Prefecture University. These associations have allowed him to explore and develop cutting-edge technologies in materials science and photocatalytic applications. His efforts contribute to advancements in sustainable technology and environmental remediation.

Collaborations

Throughout his career, Mizukoshi has collaborated with esteemed colleagues, including Naoya Masahashi and Naofumi Ootsu. Together, their combined expertise has enriched the field of photocatalysis and contributed to the progression of innovative technologies aimed at addressing environmental challenges.

Conclusion

Yoshiteru Mizukoshi stands out as a visionary inventor in the realm of photocatalytic technologies. His patent for rutile-type titanium dioxide highlights his commitment to creating sustainable and efficient solutions for industrial applications. Through his collaborations and contributions, he continues to inspire future innovations in this vital area of research.