Company Filing History:
Years Active: 2023
Title: The Innovative Contributions of Ji Young Im
Introduction
Ji Young Im is a notable inventor based in Gyeonggi-do, South Korea. He has made significant contributions to the field of pattern formation through his innovative methods. His work is particularly relevant in the context of semiconductor manufacturing and material science.
Latest Patents
Ji Young Im holds a patent for a method of forming patterns using reverse patterns. This method involves the formation of first and second upper reverse patterns on a lower reverse layer. A buffer layer is created to fill the first opening portions provided by the first upper reverse pattern. A shield pattern is then formed to cover a second region of the buffer layer. An etching process is performed using the shield pattern and the first upper reverse pattern as an etching mask to create first lower reverse patterns that provide second openings overlapping the first openings, a buffer layer pattern, and a second lower reverse pattern overlapping the shield pattern. Finally, a hard mask layer is formed and etched to separate hard mask layer first patterns filling the first and second openings, followed by another etching process using the hard mask layer first patterns and the second upper reverse patterns as etching masks to form third lower reverse patterns overlapping the second upper reverse pattern.
Career Highlights
Ji Young Im is currently employed at SK Hynix Inc., a leading semiconductor company. His work at SK Hynix has allowed him to apply his innovative methods in a practical setting, contributing to advancements in semiconductor technology.
Collaborations
Ji Young Im collaborates with talented individuals such as Jung Hyung Lee and Sarohan Park, who contribute to the innovative environment at SK Hynix. Their teamwork fosters creativity and drives the development of new technologies.
Conclusion
Ji Young Im's contributions to the field of pattern formation and semiconductor technology are noteworthy. His innovative methods and collaborations with skilled coworkers highlight the importance of teamwork in driving technological advancements.