Location History:
- Kawasaki, JP (2013 - 2015)
- Atsugi, JP (2018 - 2023)
Company Filing History:
Years Active: 2013-2023
Title: The Innovations of Hideyuki Amada: A Pioneer in Photoexcitable Materials
Introduction
Hideyuki Amada, an esteemed inventor based in Atsugi, Japan, has made significant contributions to the field of materials science through his innovative approaches to photoexcitable materials. With a total of 9 patents to his name, Amada's work embodies the spirit of ingenuity and technological advancement.
Latest Patents
Among his latest innovations, Amada developed a "Method for Manufacturing Photoexcitable Material," which features a solid solution of M and ZnO. In this breakthrough, M comprises at least one of gallium, aluminum, and indium, achieving a composition that includes 30 to 70 mol % ZnO with a band gap energy of 2.20 eV or less. Additionally, his patent for the "Method for Producing Photochemical Electrode" details a design comprising an electrically conductive layer and a photoexcitation material layer. This innovative layer configuration allows for distinct potential decreases from one surface to another, enhancing the efficiency of photochemical processes.
Career Highlights
Amada has built his distinguished career working with prominent companies such as Fujitsu Corporation and Fujitsu Semiconductor Limited. His tenure at these organizations has allowed him to refine his skills and contribute to advanced research and development in the fields of electronic materials and technologies.
Collaborations
Throughout his journey, Hideyuki Amada has collaborated with notable colleagues in the field, including Yoshihiko Imanaka and Toshihisa Anazawa. These partnerships have fostered a collaborative spirit that has driven innovation and led to the successful development of groundbreaking technologies.
Conclusion
In conclusion, Hideyuki Amada stands out as a significant figure in the realm of innovative materials science. His patented inventions not only demonstrate his expertise but also contribute to the advancement of technology in photochemical applications. As he continues to push the boundaries of what is possible, the impact of his work will undoubtedly resonate within the scientific community and beyond.