Company Filing History:
Years Active: 2016
Title: **Lucien Tamic: An Innovator in Electrical Energy Storage**
Introduction
Lucien Tamic, based in Ergue Gaberic, France, is a notable inventor recognized for his contribution to the field of electrical energy storage. With a single patent to his name, Tamic has made a significant impact through his innovative separator film, which plays a critical role in supercapacitors and batteries.
Latest Patents
Tamic's patent, titled “Separator film, its fabrication method, supercapacitor, battery and capacitor provided with said film,” describes a unique separator film designed for devices that store electrical energy. This innovative film is characterized by its porous and oriented structure, achieved through a specific stretching process. The film composition includes a polypropylene homopolymer, at least 10% of a copolymer derived from propylene and ethylene, alongside a beta-nucleating agent. The copolymer features an ethylene content between 1% and 10% and a propylene content of at least 90%, suitable for film thickness ranging from 8 to 30 microns. This invention adheres to the IEC-60674-3-1 standard, ensuring a space factor of 145% or more and a film density between 0.18 g/cm³ and 0.41 g/cm³.
Career Highlights
Currently employed at Bolloré, Tamic has exemplified dedication and innovation in his career. His work focuses on enhancing energy storage technologies through advanced materials, making significant contributions to the efficiency and performance of modern devices.
Collaborations
Lucien Tamic collaborates with esteemed coworkers Philippe Azais and Andre Huitric, who share his passion for innovation in the field of energy storage. Their combined expertise fosters a creative environment that drives the development of cutting-edge technologies.
Conclusion
Lucien Tamic’s inventive spirit and technical proficiency are evident in his patent for the separator film, which represents a vital advancement in energy storage solutions. As a skilled inventor at Bolloré, Tamic continues to inspire progress in the field, paving the way for future innovations that enhance the efficiency and sustainability of electrical energy storage devices.