

In lithium-ion battery electrodes, carbon materials are incorporated as conductive additives to ensure reliable electrical conductivity. 3DC has discovered that integrating our uniquely engineered GMS, with its distinctive structure and exceptional performance, into lithium-ion batteries offers several advantages.
Unique hollow structure allows lithium ion to move smoothly and quickly even in a condensed electrode.
GMS has fewer functional groups, then is stable at higher than common voltage such as 4.4V.
Unique flexible property allows GMS to absorb swelling effect of other battery material such as active material.
The use of a conductive additive with excellent high-voltage resistance makes it possible to use the battery at voltages exceeding 4.4V.
The high-order structure and liquid retention properties reduce electronic and ionic resistance, improving charge/discharge performance.
Achieving a significant reduction in expansion and contraction by utilizing a unique mechanically flexible property, resulting in a significant improvement in cycle life.
3DC has conducted several joint research projects with global institutions and universities:
Professor Naoaki Yabuuchi (Yokohama National University, Japan)
[Press Release] 3DC Initiates Joint Research with Professor Yabuuchi of Yokohama National University, Renowned for Leading Research on Positive Electrode Materials for Lithium-Ion BatteriesProfessor Yuki Yamada (Osaka University, Japan)
[Press Release] 3DC Initiates Joint Research with Professor Yamada of Osaka University, Renowned for His Achievements in High-Concentration Electrolytes for Lithium-Ion Batteries