Company Filing History:
Years Active: 2011
Title: Kouji Miyabayashi: Innovator in Electrically Conductive Ink
Introduction
Kouji Miyabayashi is a notable inventor based in Tokyo, Japan. He has made significant contributions to the field of electrically conductive materials, particularly through his innovative patent. His work has implications for various applications, including non-contact-type media.
Latest Patents
Miyabayashi holds a patent for an invention titled "Electrically conductive ink, electrically conductive circuit, and non-contact-type medium." This invention provides an electrically conductive ink that comprises an electrically conductive material and a vinyl chloride/vinyl acetate/hydroxyalkyl (meth)acrylate copolymer resin. The patent also describes a non-contact-type medium that includes a base material and an electrically conductive circuit formed using the conductive ink, along with an IC chip that is electrically connected to the circuit. The electrically conductive circuit can be utilized as an antenna circuit for non-contact-type media, demonstrating low volume resistivity on the order of 10Ω·cm and high reliability in extreme temperature and humidity conditions. This circuit can be formed at low temperatures in a short time, making it a valuable innovation.
Career Highlights
Miyabayashi is associated with Toyo Ink Mfg. Co., Ltd., a company known for its advancements in ink technology and materials. His work at the company has allowed him to focus on developing innovative solutions that meet the demands of modern technology.
Collaborations
Miyabayashi has collaborated with notable colleagues, including Kinya Shiraishi and Kaori Nakamura. Their combined expertise has contributed to the success of various projects within the company.
Conclusion
Kouji Miyabayashi's contributions to the field of electrically conductive materials highlight his innovative spirit and dedication to advancing technology. His patent for electrically conductive ink and circuits showcases the potential for new applications in non-contact-type media.