Ternary material

High energy density

The voltage plateau of the ternary material is high (3.6 - 3.8V), and its specific capacity is significantly superior to that of lithium iron phosphate (LFP), meeting the long-range driving requirements of electric vehicles.

The trend of high nickel content: Materials such as NCM811 and NCA increase the nickel content (≥80%), resulting in an energy density increase of more than 25% compared to traditional materials.

Outstanding electrochemical performance

Cycling performance: The small particle size design shortens the diffusion path of lithium ions, supporting fast charging (such as discharging at a rate of 2C or higher).

Low-temperature performance: The capacity retention rate at -20℃ exceeds 80%, which is superior to 60% of LFP.

Structural stability optimization

Single crystallization technology: Through melt salt-assisted sintering, single crystal particles are prepared, alleviating the particle cracking problem under high voltage and improving the cycle life.

Surface coating: Oxides such as Al₂O₃ and ZrO₂ are used for coating, inhibiting the dissolution of transition metals, reducing gas production, and improving thermal stability.