Company Filing History:
1 out of 1,037 
1 out of 348 Years Active: 1998
Title: Mitsutaka Okumura: A Pioneer in Catalytic Materials
Introduction
Mitsutaka Okumura is an innovative inventor based in Ikeda, Japan. With a remarkable contribution to the field of materials science, he holds a patent that showcases his expertise and creativity. His work has significant implications for catalytic processes, specifically in the oxidation of carbon monoxide.
Latest Patents
Okumura's notable patent is titled "Material having ultrafine gold particles immobilized thereon and method." This invention involves a unique material composed of ultrafine gold particles with a maximum particle diameter of 250 angstroms, immobilized on specific supports such as metal oxides, metal sulfides, and carbonaceous substances. The strong interaction between the gold particles and the supports enhances the material's catalytic activity for oxidizing carbon monoxide to carbon dioxide. The process of producing this material includes vaporizing an organic gold complex, which is then adsorbed on the selected support under reduced pressure and heated between 100°C to 700°C.
Career Highlights
Throughout his career, Mitsutaka Okumura has been associated with notable institutions like the Agency of Industrial Science and Technology and the Ministry of International Trade and Industry. His work in these organizations has helped him hone his skills and contribute significantly to advancements in material sciences.
Collaborations
Okumura has collaborated with esteemed coworkers, including Masatake Haruta and Koji Tanaka. These partnerships have allowed him to exchange valuable insights and foster innovation in his research endeavors.
Conclusion
Mitsutaka Okumura's contributions to the field of catalysis, through his patents and collaborative efforts, highlight the importance of innovation in developing materials with practical applications. His work not only advances scientific understanding but also holds promise for real-world applications in improving air quality by efficiently converting carbon monoxide to carbon dioxide.