Company Filing History:
Years Active: 2011
Title: Tetsuji Zama: Innovator in Electroconductive Polymers
Introduction
Tetsuji Zama is a notable inventor based in Suita, Japan. He has made significant contributions to the field of electroconductive polymers, holding 2 patents that showcase his innovative approach to technology.
Latest Patents
One of his latest patents is titled "Electroconductive polymer electrode and actuator using the same." This invention relates to an electrode that features a substrate made from a porous carbon material, with an electroconductive polymer layer formed through an electrolytic polymerization method. The electrode utilizes a porous carbon material selected from options such as carbon paper, carbon fiber, porous carbon sheets, and activated carbon sheets. Additionally, it includes an actuator that employs this electrode as a counter electrode.
Another significant patent is for a "Conductive polymer composite structure." This invention aims to create actuator elements capable of displacement, such as expansion, contraction, or bending, even when used in larger sizes. The design incorporates stacked layers or bundles that contain conductive polymer layers or fiber-like tubes, which are structured with conductive substrates that possess deformation properties and a conductivity of no less than 1.0×10 S/cm.
Career Highlights
Throughout his career, Tetsuji Zama has worked with various companies, including Eamax Corporation and Eamex Corporation. His work in these organizations has allowed him to develop and refine his innovative ideas in the field of electroconductive materials.
Collaborations
Tetsuji has collaborated with notable coworkers such as Susumu Hara and Shingo Sewa. Their combined expertise has contributed to advancements in their respective fields.
Conclusion
Tetsuji Zama's contributions to the field of electroconductive polymers highlight his innovative spirit and dedication to advancing technology. His patents reflect a commitment to developing practical solutions that can impact various applications.