Location History:
- Settsu, JP (2016 - 2022)
- Osaka, JP (2020 - 2024)
Company Filing History:
Years Active: 2016-2024
Title: Inventor Spotlight: Makoto Kutsumizu
Introduction
Makoto Kutsumizu, an innovative inventor based in Settsu, Japan, is known for his significant contributions to materials science. With a total of 13 patents to his name, Kutsumizu is particularly recognized for his groundbreaking work in developing anisotropic graphite and composites that enhance thermal conductivity. His inventions are pivotal in various applications, particularly in heat management technologies.
Latest Patents
His latest patents focus on anisotropic graphite, anisotropic graphite composites, and methods for their production. These materials exhibit exceptional heat transmission performance and long-term reliability as heat transmitting elements. One notable aspect of his work includes a technique for treating the surface of anisotropic graphite to achieve a specific surface roughness. Furthermore, his patents specify the inclusion of titanium-containing metal layers and inorganic material layers in anisotropic graphite composites, enhancing their thermal conduction properties significantly.
Career Highlights
Kutsumizu is currently affiliated with Kaneka Corporation, where he continues to lead innovative projects. His extensive experience in the field of material science has positioned him as a key figure in the development of heat-dissipating materials that meet the demands of modern technology.
Collaborations
Throughout his career, Kutsumizu has worked alongside esteemed colleagues including Yasushi Nishikawa and Yusuke Ohta. Their collaborative efforts have facilitated advancements in anisotropic materials, fostering a research environment that emphasizes innovation and practical applications.
Conclusion
Makoto Kutsumizu's work reflects a deep commitment to enhancing material properties for heat management. His patents contribute significantly to advancements in the field, underpinning technologies that rely on efficient heat dissipation. As he continues to innovate, his contributions are likely to impact various industries and applications for years to come.