Company Filing History:
Years Active: 2017-2018
Title: Eiko Itani: Innovator in Battery Technology
Introduction
Eiko Itani is a prominent inventor based in Osaka, Japan. He has made significant contributions to the field of battery technology, holding 2 patents that showcase his innovative approach to energy storage solutions.
Latest Patents
One of Eiko Itani's latest patents is for a heat resistant battery and method for charging and discharging the same. This advanced battery design includes a positive electrode with a sodium-containing transition metal compound that can electrochemically store and release sodium ions. The negative electrode features materials such as a sodium-containing titanium compound and non-graphitizable carbon, both capable of functioning at lower potentials. Additionally, the sodium ion-conductive electrolyte is designed to enhance performance, utilizing a salt of an organic cation with a pyrrolidinium skeleton.
Another notable patent is a power supply system for wells, which is engineered to operate effectively over extended periods. This system incorporates a secondary battery that can withstand the temperature conditions found within wells, supplying power to devices installed in these environments. The design may also include a molten salt battery, along with sensors and communication apparatus for enhanced functionality.
Career Highlights
Eiko Itani is currently employed at Sumitomo Electric Industries, Limited, where he continues to develop innovative technologies in the energy sector. His work has positioned him as a key figure in advancing battery technology, particularly in applications that require durability and efficiency.
Collaborations
Eiko collaborates with talented individuals such as Koma Numata and Shinji Inazawa, contributing to a dynamic team focused on pushing the boundaries of battery innovation.
Conclusion
Eiko Itani's contributions to battery technology reflect his commitment to innovation and excellence. His patents not only demonstrate his technical expertise but also highlight the potential for future advancements in energy storage solutions.