Company Filing History:
Years Active: 2004
Title: Emory S DeCastro: Innovator in Ion-Conductive Polymer Membranes
Introduction
Emory S DeCastro is a notable inventor based in Nahant, MA (US). He has made significant contributions to the field of materials science, particularly in the development of ion-conductive polymer membranes. His innovative work has led to the creation of a patented process that enhances the performance of membrane-electrode structures.
Latest Patents
Emory S DeCastro holds a patent for a "Method of forming robust metal, metal oxide, and metal alloy layers on ion-conductive polymer membranes." This patent describes an ion beam-assisted deposition process for preparing a membrane-electrode structure. The process involves applying a layer of liquid ionomer to the surface of a carbon cloth gas diffusion electrode structure. The coated structure is then heated to form an ionomer film on the cloth electrode. Subsequently, the structure is treated with a metal or metal oxide ion-beam having an energy between 500-2000 eV. This innovative method results in a carbon cloth supported metal or a carbon metal oxide ionomer film membrane-electrode structure.
Career Highlights
Emory S DeCastro is associated with De Nora S.p.a., a company known for its advancements in electrochemical technologies. His work at the company has been instrumental in pushing the boundaries of ion-conductive materials. With a focus on practical applications, he has contributed to the development of technologies that have real-world implications.
Collaborations
Throughout his career, Emory has collaborated with notable colleagues, including Robert J Allen and James R Giallombardo. These collaborations have fostered a productive environment for innovation and have led to advancements in their respective fields.
Conclusion
Emory S DeCastro's contributions to the field of ion-conductive polymer membranes exemplify the spirit of innovation. His patented methods and collaborative efforts continue to influence advancements in materials science. His work not only enhances the performance of membrane-electrode structures but also paves the way for future innovations in the industry.