Advanced Anode Materials for High-capacity Lithium-ion Batteries—Silicon, Graphene, and Beyond: What Are the Growth Opportunities?
Advanced anode materials are revolutionizing the fundamentals of the lithium-ion battery industry
The global shift to sustainability requires a strong focus on electrification and energy storage to decarbonize various sectors that rely on batteries for both mobility and stationary storage applications. These sectors include electric vehicles, water transportation, electric aviation, consumer electronics, power backup systems, and large-scale grid storage. The demand for higher performance from lithium-ion (Li-ion) batteries in these applications has become increasingly critical, particularly for mobility solutions.
- How are emerging anode materials for Li-ion batteries like niobium oxides, lithium titanium oxide (LTO), lithium vanadium oxide (LVO), silicon anodes, transition metal compounds, and hybrid anodes poised for growth?
- How can you optimize your growth strategies by analyzing various advanced anode materials based on parameters such as specific capacity, safety, and cycle life?
- How can major stakeholders achieve exponential growth in the advanced Li-ion battery anode industry?