Company Filing History:
Years Active: 2001
Title: Jeffery B Wolfenstine: Innovator in Lithium-Ion Cell Technology
Introduction
Jeffery B Wolfenstine is a notable inventor based in Silver Spring, MD (US). He has made significant contributions to the field of lithium-ion cell technology, particularly through his innovative patent that addresses the challenges associated with lithium-ion electrochemical cells.
Latest Patents
Wolfenstine holds a patent titled "Tertiary polyamines as additives to lithium-ion cell electrolytes to provide lithium-ion cell having improved properties." This invention focuses on a secondary lithium-ion electrochemical cell that exhibits enhanced properties. The method described in the patent aims to reduce and prevent the exfoliation of the graphitic carbonaceous electrode within the lithium-ion cell. This exfoliation is typically caused by the intercalation of electrolyte solvent along with lithium ions into the electrode. By incorporating one or more chelating polyamines into the electrolyte solution, Wolfenstine's method offers a novel approach to improving the performance and longevity of lithium-ion cells.
Career Highlights
Throughout his career, Wolfenstine has demonstrated a commitment to advancing battery technology. His work has not only contributed to the development of more efficient lithium-ion cells but has also paved the way for further innovations in energy storage solutions.
Collaborations
Wolfenstine has collaborated with esteemed colleagues, including Donald L Foster and Wishvender K Behl, to enhance the research and development of lithium-ion technology. Their combined expertise has fostered a collaborative environment that encourages innovation and problem-solving.
Conclusion
Jeffery B Wolfenstine's contributions to lithium-ion cell technology exemplify the impact of innovative thinking in the field of energy storage. His patent reflects a significant advancement that addresses critical challenges in battery performance. Through his work, Wolfenstine continues to influence the future of electrochemical cells and energy solutions.