Company Filing History:
Years Active: 1992
Title: Deanne P Yamato: Innovator in Conductive Polymer Materials
Introduction
Deanne P Yamato is a notable inventor based in Van Nuys, California. She has made significant contributions to the field of conductive polymers, particularly through her innovative patent that enhances the solubility and conductivity of these materials. Her work is essential for advancing applications in various industries.
Latest Patents
Deanne P Yamato holds a patent for the "Preparation of highly soluble conductive polymer materials." This invention focuses on the preparation of conductive polymers, specifically polyanilines, which exhibit excellent solubility in organic solvents and high electrical conductivity. The process involves a mixture of aniline, dianiline, and a flexible diamine, such as 1,3-bis (3-aminophenoxy)benzene or triethylene tetramine. The mixture is reacted in the presence of an oxidant, like ammonium persulfate, and a protonic acid, such as tosic acid, to polymerize and form a flexible conductive polyaniline. This innovative polymer not only improves solubility but also possesses terminal primary amino groups that enhance reactivity. The resulting conductive polyaniline can be blended with non-conductive resins, such as polyimides, to create cured conductive resin blends with excellent mechanical properties.
Career Highlights
Deanne P Yamato is currently associated with Lockheed Corporation, where she applies her expertise in polymer science. Her work at Lockheed has allowed her to contribute to various projects that leverage her knowledge of conductive materials.
Collaborations
Throughout her career, Deanne has collaborated with talented individuals, including Sandra K Clement and Randy E Cameron. These collaborations have enriched her research and development efforts in the field of conductive polymers.
Conclusion
Deanne P Yamato's innovative work in the preparation of conductive polymer materials has made a significant impact in the field. Her contributions continue to influence advancements in material science and engineering.