Next-Generation Battery Materials for Fast-Charging, Durable, and Safer Lithium-Ion Batteries

As the demand for fast-charging, long-life, and safe lithium-ion batteries grows across sectors such as electric mobility, industrial power tools, and stationary storage, the limitations of conventional anode materials are becoming increasingly apparent. Graphite, while energy-dense, struggles with rate capability, cycle life and safety under high loads. Lithium titanate (LTO) , a widely used alternative material for power applications, offers excellent cycle life and thermal stability but is hindered by high cost, low energy density, and energy demanding processing.
This presentation explores the development and industrialization of a new class of titanium-based anode materials designed to address these trade-offs. These materials combine the structural stability and safety profile of LTO with improved energy density and significantly lower production costs. By leveraging abundant raw materials and new and scalable synthesis methods, they offer a compelling pathway toward high-performance, cost-effective, and competitive power-oriented batteries.
We will present key electrochemical performance metrics, including fast-charging capability, long cycle life , and thermal resilience. The talk will also address manufacturability and the importance of consistent quality output, compatibility with existing cell designs, and the broader implications for accelerating the adoption of high-power lithium-ion technologies in a cost-sensitive and sustainability-driven market.