Company Filing History:
Years Active: 2018
Title: The Innovative Contributions of Timothy Lichtenstein
Introduction
Timothy Lichtenstein, an inventive mind from Carol Stream, Illinois, has made significant strides in the field of energy storage technology. With one patent to his name, his work on redox flow batteries stands out as a promising advancement in enhancing energy efficiency and storage capacity.
Latest Patents
Lichtenstein's notable patent is titled "Redox Active Polymers and Colloidal Particles for Flow Batteries." This invention outlines a redox flow battery that incorporates a microporous or nanoporous size-exclusion membrane. One of its crucial features is the inclusion of a redox-active polymer dissolved in a non-aqueous solvent or redox-active colloidal particles dispersed in the same solvent. This innovative design leads to improved ionic conductivity across the electrolyte separator while minimizing redox-active species crossover, thus significantly boosting battery performance. Notably, redox active poly(vinylbenzyl ethylviologen) (RAPs) and redox active colloidal particles (RACs) have been developed and demonstrated high effectiveness as redox species. Lichtenstein's research shows that 94-99% of the nominal charge on various RAPs is accessible, with stable electrolysis products upon cycling. Furthermore, the ability to achieve high concentrations of over 2.0 M for RAPs in common non-aqueous battery solvents makes this technology particularly attractive for widespread application.
Career Highlights
Timothy Lichtenstein is currently affiliated with the University of Illinois, where he contributes to pioneering research in battery technologies. His work is characterized by its focus on electrochemical systems and materials that enhance energy storage capabilities. The innovative nature of his patent positions him as a noteworthy inventor in the realm of renewable energy.
Collaborations
Throughout his career, Lichtenstein has collaborated with distinguished colleagues such as Nagarjuna Gavvalapalli and Jeffrey S. Moore. These collaborations have fostered a rich environment for knowledge exchange and innovation, ultimately enhancing the overall impact of their research efforts.
Conclusion
In summary, Timothy Lichtenstein’s contributions to the development of redox flow batteries demonstrate the importance of innovation in energy storage solutions. His patented work not only advances the scientific understanding of battery technology but also paves the way for future research and application in the energy sector. As energy demands continue to grow, inventors like Lichtenstein play a crucial role in finding sustainable and efficient solutions for energy storage.