Company Filing History:
Years Active: 2025
Title: Innovations by James Pastore in Battery Technology
Introduction
James Pastore is an accomplished inventor based in Collegeville, PA (US). He has made significant contributions to the field of battery technology, particularly in the development of high voltage cathode materials and non-aqueous electrolytes. With a total of 2 patents to his name, his work is paving the way for advancements in energy storage solutions.
Latest Patents
Pastore's latest patents include innovative materials and methods that enhance battery performance. The first patent focuses on high voltage cathode materials for non-aqueous ammonia-based batteries. This invention describes novel, high voltage cathode active materials that provide higher power output at low temperatures compared to previous ammonia-based batteries. Additionally, it discusses non-aqueous electrolytes, various anodes, separators, and cell constructions that support these advancements.
The second patent details non-aqueous, high salt concentration ammonia-based electrolytes that are compatible with lithium-based anodes. This invention supports higher voltage provided by novel cathodes and lithium-based anodes, resulting in high power density batteries that outperform prior art. Various cathodes, separators, and cell constructions are also disclosed in this patent.
Career Highlights
James Pastore is currently employed at Maxpower, Inc., where he continues to innovate in the field of battery technology. His work is instrumental in developing solutions that address the growing demand for efficient energy storage systems.
Collaborations
Pastore collaborates with talented individuals such as Lin-Shu Du and Natalie Aulicino, contributing to a dynamic team focused on advancing battery technology.
Conclusion
James Pastore's contributions to battery technology through his patents and work at Maxpower, Inc. highlight his role as a key innovator in the field. His advancements in high voltage cathode materials and non-aqueous electrolytes are set to make a significant impact on energy storage solutions.