Company Filing History:
1 out of 832,891 Years Active: 2003
Title: The Innovative Mind of Shirou Ueda: A Focus on Synthetic Resin Composition
Introduction: Shirou Ueda, an inventive mind located in Chuo-ku, Japan, is recognized for his significant contribution to the field of synthetic materials. With a focus on addressing malodor problems, specifically those caused by amine substances, Ueda's innovative thinking has led to the development of a revolutionary synthetic resin composition.
Latest Patents: Ueda holds a notable patent for a synthetic resin composition designed to effectively deodorize substances such as trimethyl amine. His invention leverages a unique combination of an aqueous medium, surfactant, polymer latex, and a specialized filler. This filler includes a transitional metal supported silica gel, which possesses excellent properties for adsorbing malodor-causing amines and ammonia. The ability of the transitional metal or compound to act as a Lewis acid enables it to form complexes with Lewis bases, making the resin composition efficient in tackling unpleasant odors.
Career Highlights: Throughout his career, Ueda has demonstrated a consistent ability to innovate within the field of materials science. His groundbreaking patent exemplifies his dedication to finding practical solutions to real-world problems. By focusing on improving the quality of synthetic materials, Ueda has carved out a niche for himself in the competitive world of inventors.
Collaborations: Ueda has collaborated with notable colleagues, including Tomiko Mouri and Kazuhiro Fukumoto. These partnerships have contributed to his inventive processes and have fostered a collaborative environment that promotes significant technological advances in synthetic materials.
Conclusion: Shirou Ueda stands out as an influential inventor in the field of synthetic resins. His patent reflects a deep understanding of chemical interactions and a commitment to solving issues associated with malodors in everyday materials. As innovations in this field continue to evolve, Ueda's contributions will undoubtedly play a vital role in shaping future advancements in synthetic compositions.