Company Filing History:
Years Active: 2011
Title: **The Innovative Contributions of Byung-Hyun Lee in Cyclic Olefin Compounds**
Introduction
Byung-Hyun Lee is a notable inventor based in Daejeon Metropolitan, South Korea. He is recognized for his significant contributions to the field of materials science, particularly through his innovative work on cyclic olefin compounds and their applications in liquid crystal displays.
Latest Patents
Byung-Hyun Lee holds one patent that highlights his inventive prowess. The patent, titled "Cyclic olefins compounds, polymers comprising the same and liquid crystal alignment films including the polymers," presents a novel cyclic olefin compound, along with a polymer that incorporates this cyclic olefin. The invention further connects to liquid crystal alignment films and liquid crystal display devices that utilize these films. One of the key benefits of Lee's invention is that the polymer featuring the cyclic olefin compound exhibits excellent thermal stability and a high photoreactive speed. This advancement allows for reduced production time and costs while enhancing the anchoring force of liquid crystals due to stabilized alignment properties achieved through curing.
Career Highlights
Byung-Hyun Lee is associated with LG Chem, Ltd., a leading chemical company where he continues to innovate in materials science. His work is not only critical to advancing his company's goals but also significantly contributes to the technology sector, particularly in display technology.
Collaborations
In his career, Byung-Hyun Lee has collaborated with his coworkers, Heon Kim and Sung-Ho Chun. Their collective efforts demonstrate the importance of teamwork in the innovation process, ultimately leading to advancements in polymer technology and its applications in electronic devices.
Conclusion
Byung-Hyun Lee's patent exemplifies the intersection of innovation and practicality in the materials science field. His work on cyclic olefin compounds and their applications significantly enhances the performance and efficiency of liquid crystal displays. Through his contributions, Lee continues to inspire future innovations in technology and materials.