Location History:
- Tsukuba, JP (2015)
- Ibaraki, JP (2016)
Company Filing History:
Years Active: 2015-2016
Title: **Innovator Profile: Dohiko Terada**
Introduction
Dohiko Terada is a prominent inventor based in Ibaraki, Japan, known for his contributions to the field of medical materials. With a portfolio that includes two patents, his work stands out for its innovative approach to hemostatic materials and polymer fiber production.
Latest Patents
His latest patents include a hemostatic material that incorporates nano-fiber containing synthetic collagen. This advanced medical material is designed to effectively stop bleeding quickly while being easy to handle and produce. The hemostatic material consists of a nano-fiber that contains a polymer and a polypeptide characterized by a specific peptide fragment formula. This innovation is significant for medical applications requiring rapid intervention.
Another noteworthy patent pertains to a process for making polymer electrolyte fibers using an electrospinning method. In this process, a high voltage is applied to a polymer electrolyte solution, allowing for the production of high molecular weight polymer fibers. The innovation lies in optimizing the voltage application to enhance the viscosity of the solution, facilitating flow and fiber formation.
Career Highlights
Dohiko Terada has had an impactful career, working with notable organizations such as JNC Corporation and the National Institute for Materials Science. His experience in these institutions underscores his commitment to advancing material science and innovation.
Collaborations
Throughout his career, Terada has collaborated with respected colleagues, including Hisatoshi Kobayashi and Masami Todokoro. These partnerships have contributed to his success in developing cutting-edge technologies and materials.
Conclusion
Dohiko Terada exemplifies the spirit of innovation, combining scientific knowledge with practical applications in medicine and materials science. His patents reflect significant advancements that hold promise for future developments in medical technology and polymer production.