Lithium-ion pre-doping
【Thank you for visiting】 Innovation Japan 2021 ~ Business Matching ~ (online)
Introducing our company at “Innovation Japan 2021 ~ Business Matching ~ (WEB held)” held from August 23, 2021 (Monday) to September 17, 2021 (Friday), despite your busy schedule. Thank you for visiting our booth. Wired Co., Ltd.
Book "Development Trend of Silicon-Based Negative Electrode Materials for Lithium-ion Secondary Batteries"
On November 29, 2019, CMC Publishing Co. will publish “Lithium-ion Secondary Naohiko Soma contributed to “Development Trend of Silicon Anode Materials for Battery”. The article on “Chapter 10: Silicon Electrode Drilling Technology to Facilitate Lithium Pre-Doping” was published by Mr. Naohiko Soma. Technology and Initiatives. WIRED Co., Ltd.
【Media Information】Succeeded in producing high energy density lithium-ion secondary batteries by laser processing (Engineering Materials December 2019)
Development of batteries at Kanagawa University Open Laboratory for New Types of Batteries “Part 1: Lithium-ion batteries by laser processing Successful Development of High Energy Density Secondary Battery – Higher power can be achieved easily by drilling holes in the electrodes” Industrial Materials (December 2019), our laser processing technology was featured in. WIRED Co. ., Ltd.
The 60th Battery Symposium in Japan
We shall exhibit at “The 60th Symposium in Japan on Battery Technology”.
We have succeeded in processing the roll-to-roll that can be continuously perforated by laser for the Si negative electrode and the SiO negative electrode. On the day of the event, we will exhibit sample processed products. We look forward to seeing you there. WIRED Co., Ltd.
High capacity lithium-ion batteries! Laser drilling of a whole electrode
WIRED Co., Ltd. , a technology-based venture company that specializes in microfabrication technology, has developed a technology for continuously drilling a large number of microscopic holes in the electrode material of lithium (Li) ion secondary batteries using a laser. The use of the drilled electrode material makes it easy to “pre-dope” lithium ions, which is essential for increasing the capacity of next-generation lithium-ion batteries.