Company Filing History:
Years Active: 2022
Title: Innovations of Sangeon Lee in Transparent Conductors
Introduction
Sangeon Lee is an accomplished inventor based in Ann Arbor, MI. He has made significant contributions to the field of optoelectronics, particularly in the development of transparent and flexible conductors. His innovative work has the potential to impact various applications in technology and electronics.
Latest Patents
Sangeon Lee holds a patent for "Transparent and flexible conductors made by additive processes." This patent describes optically transparent and highly conductive materials that can also be flexible. The methods outlined in the patent include creating a groove pattern on a substrate to define a two-dimensional array. An electrically conductive material is selectively applied within this groove pattern to create a transparent conductor, such as a transparent conductive electrode (TCE). The resulting transparent conductor exhibits a sheet resistance of about 5 Ohms/Square and a transmissivity of at least 50% for specific wavelengths of electromagnetic energy. This technology can form linear and tortuous micromesh conductive arrays, which are useful in various optoelectronic applications, including flexible and mechanically reconfigurable zeroth-order resonant antennas.
Career Highlights
Sangeon Lee is affiliated with the University of Michigan, where he continues to advance his research in the field of transparent conductors. His work is characterized by a commitment to innovation and excellence, contributing to the university's reputation as a leading research institution.
Collaborations
Sangeon Lee has collaborated with notable colleagues, including Lingjie Jay Guo and Taehee Jang. These collaborations have fostered a dynamic research environment, enhancing the development of cutting-edge technologies in their field.
Conclusion
Sangeon Lee's contributions to the field of transparent conductors exemplify the spirit of innovation and research excellence. His patented technologies hold promise for future advancements in optoelectronic applications.