Shinichi Matsuki

Title: **Shinichi Matsuki: Pioneering Organic Electroluminescent Devices**

Introduction

Shinichi Matsuki is an accomplished inventor based in Ueda, Japan. He is known for his significant contributions to the field of organic electronics, particularly in the development of compounds that enhance the efficiency of electroluminescent devices. His work has paved the way for advancements in display and lighting technologies.

Latest Patents

Shinichi Matsuki holds a patent for a compound featuring a triphenylsilyl group and triarylamine structure, aimed at enhancing organic electroluminescent devices. His invention provides a light-emitting layer host compound and an electron-blocking compound that possess high excited triplet levels. This capability allows for the complete confinement of triplet excitons of phosphorescent material, significantly improving the efficiency and luminance of organic electroluminescent devices. The invention includes a specific compound formula that plays a crucial role in maximizing performance.

Career Highlights

Throughout his career, Shinichi Matsuki has held positions in reputable organizations, notably Hodogaya Chemical Co., Ltd. and Shinshu University. His work in these institutions has contributed to the advancement of materials used in electronic applications, showcasing his expertise in the field of organic chemistry and materials science.

Collaborations

Shinichi Matsuki has collaborated with notable individuals in his field, including Norimasa Yokoyama and Shuichi Hayashi. Their joint efforts have further propelled innovations in organic electroluminescent technology, reinforcing the importance of teamwork and collaboration in scientific advancement.

Conclusion

In summary, Shinichi Matsuki stands out as a leading inventor in the realm of organic electroluminescent devices. His patent on the triphenylsilyl and triarylamine-based compound reflects his dedication to improving lighting technology. As the industry continues to evolve, Matsuki’s contributions will undoubtedly play a pivotal role in shaping the future of organic electronics.