Company Filing History:
Years Active: 1993
Title: Mark T Williams - Innovator in High-Temperature Bipolar Battery Technology
Introduction
Mark T Williams, an inventive force hailing from Hampstead, Maryland, is recognized for his groundbreaking contributions to battery technology. With a focus on enhancing energy storage solutions, Williams holds a patent that addresses critical challenges in bipolar battery design and functionality.
Latest Patents
Williams' notable patent, titled "Stacked Cell Array Bipolar Battery with Thermal Sprayed Container," presents a high-temperature bipolar battery comprising a series of stacked individual cells. This innovative design features a thermal-sprayed ceramic layer applied to the exterior of the stacked array, significantly enhancing the battery's structural integrity and thermal resistance. The implementation of a metal support and containment structure allows for improved performance, while the clever sealing mechanism between the cells prevents electrolyte communication, ensuring optimal efficiency.
Career Highlights
Currently employed at Saft America, Williams has devoted his professional career to advancing battery technology. His extensive knowledge and hands-on experience play a crucial role in developing solutions that meet modern energy requirements. With one patent to his name, Williams demonstrates a commitment to excellence in innovation that sets him apart in the industry.
Collaborations
Throughout his career, Williams has collaborated with fellow innovators, including James D Briscoe and Salah M Oweis. These partnerships reflect a shared vision to enhance battery technologies and contribute to significant advancements within the field. Together, they have combined their expertise to push the boundaries of what is possible in energy storage solutions.
Conclusion
Mark T Williams stands as a pivotal figure in the world of energy innovations, particularly in the development of high-temperature bipolar batteries. His patented technology not only demonstrates his ingenuity but also highlights the potential for more efficient battery designs. As the demand for advanced energy solutions grows, Williams' contributions will likely influence the future of energy storage and sustainability.