Company Filing History:
Years Active: 2017
Title: **Yasuhiko Emori: Innovator in Lithium Ion Battery Technology**
Introduction
Yasuhiko Emori, located in Tokyo, Japan, is a distinguished inventor recognized for his contributions to battery technology. He holds a patent for a lithium ion secondary battery that showcases exceptional high-rate discharge characteristics. Emori's work represents a significant advancement in the field of energy storage solutions.
Latest Patents
Emori's sole patent focuses on a lithium ion secondary battery designed to address the challenge of providing excellent high-rate discharge characteristics. The patent describes a unique solution involving a compound represented by Li(NiCoAl)O, which serves as a positive electrode active material. The specific formulation parameters are crucial to the battery's performance, ensuring that the positive electrode maintains an electrode density between 3.75 to 4.1 g/cm and a BET specific surface area ranging from 1.3 to 3.5 m²/g.
Career Highlights
Yasuhiko Emori works at TDK Corporation, a company renowned for its innovative electronic components and solutions. His role at the company has allowed him to contribute to cutting-edge technologies in energy storage. With 1 patent to his name, Emori’s invention not only highlights his expertise but also underscores his commitment to advancing battery technology.
Collaborations
Throughout his career, Emori has collaborated with talented individuals such as Atsushi Sano and Hiroyuki Miyabara. These professional relationships have facilitated the exchange of ideas and knowledge, enhancing the development of innovative solutions within TDK Corporation.
Conclusion
Yasuhiko Emori stands as a notable figure in the field of lithium ion battery technology. His patent underscores the importance of innovation in developing energy storage solutions with enhanced performance. As the demand for efficient and high-capacity batteries continues to grow, Emori’s contributions may play a pivotal role in shaping the future of energy storage.