Company Filing History:
Years Active: 2021
Title: **Innovator Junsoo Jang and His Contributions to Redox Flow Batteries**
Introduction
Junsoo Jang, an accomplished inventor based in Seoul, South Korea, has made significant strides in the field of energy storage technologies. With a focus on developing efficient electrolyte solutions for redox flow batteries, his innovations promise to advance the efficiency and sustainability of renewable energy systems.
Latest Patents
Junsoo Jang holds a patent titled "Electrolyte solution for redox flow battery and redox flow battery comprising same." This patent details an electrolyte designed for redox flow batteries, which consists of a solute and solvent. The solute includes active materials for both the anode and cathode. Specifically, the anode active material features organic compounds with carbonyl groups, such as benzophenone and dimethyl terephthalate, while the cathode active material comprises amine and tetrathiafulvalene-based compounds.
Career Highlights
Jang's career is marked by a commitment to advancing energy technologies. Currently, he works at the Seoul National University R&D Foundation, where his research focuses on improving battery performance and sustainability through innovative electrolyte compositions. His contributions play a crucial role in the ongoing quest for more effective energy storage solutions.
Collaborations
Throughout his career, Junsoo Jang has collaborated with notable peers, including Seung Mo Oh and Hyun-seung Kim. Together, they have explored new avenues in energy storage, contributing to advancements within their respective fields. These collaborations have fostered a rich environment for innovation and progress.
Conclusion
In summary, Junsoo Jang is a notable inventor whose work in the field of redox flow batteries showcases the potential for increased efficiency and sustainability in energy storage. Through his patent and collaborations, he continues to contribute to the advancement of energy technologies, paving the way for the future of renewable energy systems.