Company Filing History:
Years Active: 1993
Title: The Innovative Contribution of Masaki Madono in Aluminum Hydroxide Production
Introduction
Masaki Madono, an esteemed inventor based in Pittsburgh, PA, has made significant strides in the field of materials science through his innovative patent related to aluminum hydroxide production. With a focus on enhancing the efficiency and effectiveness of this chemical process, Madono's invention showcases his dedication to advancing industrial technology.
Latest Patents
Madono holds a patent for a method of producing aluminum hydroxide, which involves the reaction of water in the liquid phase with aluminum at a pH level above approximately 12.4. This unique approach allows for the production of aluminum hydroxide at acceptable rates for aluminum surface areas exceeding 75,000 mm²/g, as well as for those below 50,000 mm²/g, down to even 20 mm²/g. Notably, his method also includes an alternative process where aluminum is reacted with liquid water that contains choline, resulting in aluminum hydroxide particles exhibiting distinctive morphologies.
Career Highlights
Currently associated with the Aluminum Company of America, Masaki Madono has utilized his expertise to develop groundbreaking methods that push the boundaries of aluminum processing. His inventive techniques not only enhance production rates but also aim to achieve superior material properties, offering potential applications across various industries.
Collaborations
Throughout his professional journey, Madono has collaborated with talented colleagues such as Edward S. Martin and Mark L. Weaver. These partnerships have facilitated knowledge exchange and innovation, further enriching the research environment within the company.
Conclusion
Masaki Madono's contributions to aluminum hydroxide production exemplify the power of invention and innovation in driving industrial progress. His patent not only represents a personal achievement but also holds promise for advancements within the materials science domain, marking him as an important figure in the ongoing development of efficient chemical processes.