Location History:
- Mino, JP (2009)
- Suita, JP (2011 - 2015)
Company Filing History:
Years Active: 2009-2015
Title: **Tomoyoshi Suenobu: Innovator in Catalysis and Hydrogen Production**
Introduction
Tomoyoshi Suenobu is a prominent inventor based in Suita, Japan, known for his innovative contributions in the field of catalysis and hydrogen production. With a total of three patents to his name, he has developed complex medical solutions that address critical needs in chemical processes.
Latest Patents
Among his latest inventions is a mononuclear metal complex designed to serve as a highly efficient hydrogenation reduction catalyst. This catalyst enables the efficient hydrogenation reduction of a target substance, significantly enhancing the efficacy of chemical reactions. The patent details a complex represented by a specific formula, where Ar denotes an aromatic anionic ligand or is absent, M corresponds to a transition metal, and key components include various ligands and groups necessary for catalytic activity. Additionally, he has developed a catalyst system focused on the decomposition of formic acid, paving the way for innovative processes in hydrogen production and storage.
Career Highlights
Suenobu has held significant roles at notable institutions such as Osaka University and the Japan Science and Technology Agency. His work has primarily revolved around advancing research in hydrogen utilization, offering innovative perspectives on energy sustainability and efficiency.
Collaborations
Throughout his career, Tomoyoshi Suenobu has collaborated with eminent scientists, including Shunichi Fukuzumi and Seiji Ogo. These partnerships have contributed greatly to the advancement of his projects and the effective application of his inventions in scientific communities.
Conclusion
With his notable patents and significant collaborations, Tomoyoshi Suenobu stands out as an influential inventor in the modern scientific landscape. His work not only reflects his expertise but also holds the promise of transforming practical applications in catalysis and hydrogen production, showcasing the importance of innovation in addressing global challenges.