Company Filing History:
Years Active: 2011
Title: Kazusa Yukimoto: Innovator in Nonaqueous Electrolytic Cells
Introduction
Kazusa Yukimoto is a prominent inventor based in Kyoto, Japan. She is known for her significant contributions to the field of electrochemistry, particularly in the development of nonaqueous electrolytic cells. Her innovative work has led to advancements in energy storage technologies.
Latest Patents
Kazusa Yukimoto holds a patent for a nonaqueous electrolytic cell and its manufacturing method. This patent describes a unique method characterized by the use of a nonaqueous electrolyte containing vinylene carbonate. The process involves forming a coating on the surface of the negative electrode during the initial charging and discharging phases. This is achieved by lowering the negative electrode potential to less than 0.4 V relative to the lithium potential. The nonaqueous electrolytic cell comprises a nonaqueous electrolyte containing an electrolytic salt and a nonaqueous solvent, along with a positive electrode and a negative electrode that allows for the insertion and desorption of lithium ions at a potential higher than the lithium potential by 1.2 V. The cell operates within a range of negative electrode potential that is nobler than the lithium potential by 0.8 V.
Career Highlights
Kazusa Yukimoto is currently associated with GS Yuasa Corporation, a leading company in the field of battery technology. Her work at the company has been instrumental in advancing the development of efficient energy storage solutions. With her expertise, she has contributed to the company's reputation as a pioneer in battery innovation.
Collaborations
Kazusa has collaborated with notable colleagues, including Suguru Kozono and Shigeki Yamate. These collaborations have fostered a productive environment for innovation and have led to significant advancements in their respective fields.
Conclusion
Kazusa Yukimoto's contributions to the field of nonaqueous electrolytic cells exemplify her innovative spirit and dedication to advancing energy storage technologies. Her work continues to influence the industry and pave the way for future developments.