Felix Sunjoo Kim

Title: Innovations of Felix Sunjoo Kim

Introduction

Felix Sunjoo Kim is an accomplished inventor based in Seattle, WA. He has made significant contributions to the field of semiconductor materials, with a focus on novel compounds and their applications in electronic devices. His work has led to the development of innovative materials that enhance the performance of various electronic components.

Latest Patents

Felix Sunjoo Kim holds 2 patents that showcase his expertise in semiconductor technology. His latest patents include the development of acenaphthylene imide-derived semiconductors, which consist of novel materials such as small molecule compounds, polymers, and oligomers. These materials are designed for use in electronic and optoelectronic devices, particularly as n-channel components in organic field-effect transistors and complementary electronic circuits. High mobility is a key feature of these semiconducting materials.

Another significant patent involves copolymer semiconductors that incorporate thiazolothiazole or benzobisthiazole electron acceptor subunits, along with electron donor subunits. These copolymers are essential for manufacturing organic electronic devices, including transistors and solar cells. The invention also covers synthetic precursors for these copolymers and methods for their production.

Career Highlights

Felix Sunjoo Kim is affiliated with the University of Washington, where he continues to advance research in semiconductor materials. His work has garnered attention for its potential applications in improving electronic devices and renewable energy technologies.

Collaborations

Felix has collaborated with notable colleagues, including Samson A Jenekhe and Haiyan Li, who share his passion for innovation in the field of electronics.

Conclusion

Felix Sunjoo Kim's contributions to semiconductor technology exemplify the impact of innovative research on electronic devices. His patents reflect a commitment to advancing materials that enhance device performance and efficiency.