Location History:
- Gyeonggi-do, KR (2010)
- Seoul, KR (2009 - 2023)
Company Filing History:
8 out of 2,169 
2 out of 18,700 Years Active: 2009-2023
Title: Hae Weon Lee: Innovator in Sulfide-Based Solid Electrolytes
Introduction
Hae Weon Lee is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the field of solid electrolytes, particularly in the development of sulfide-based materials. With a total of nine patents to his name, Lee's work is at the forefront of innovation in energy storage technologies.
Latest Patents
Among his latest patents are two notable inventions: a method for analyzing sulfide-based solid electrolytes using computer simulation and a lithium ion conductive sulfide-based solid electrolyte with controlled halogen elements content. The first patent discloses a method that allows users to connect to a client, input information about a sulfide-based solid electrolyte, and transmit this information to a server. The server then generates a three-dimensional structure of the electrolyte, enabling analysis of properties that cannot be observed through experimentation. The second patent focuses on a sulfide-based solid electrolyte that improves lithium ion conductivity, featuring a specific molar ratio of halogen to phosphorus elements.
Career Highlights
Hae Weon Lee has worked with esteemed organizations such as the Korea Institute of Science and Technology and Hyundai Motor Company. His experience in these institutions has allowed him to refine his expertise in materials science and solid-state chemistry.
Collaborations
Lee has collaborated with notable colleagues, including Jong Ho Lee and Ji Won Son, who have contributed to his research endeavors. Their combined efforts have further advanced the understanding and application of sulfide-based solid electrolytes.
Conclusion
Hae Weon Lee's innovative work in the field of sulfide-based solid electrolytes showcases his commitment to advancing energy storage technologies. His patents reflect a deep understanding of materials science and a dedication to improving lithium ion conductivity. Lee's contributions are paving the way for future advancements in this critical area of research.