Twin-Star Battery Material System

Our twin-star system represents a breakthrough in battery chemistry, overcoming the low-temperature limitations of phosphate systems while maximizing both safety and performance. Built on a metallic phosphate and olivine framework, this technology elevates energy density, charging speed, and reliability across diverse operating conditions.

Thermal Control

Electrode materials receive micro-nano coating to improve thermal stability and control heat generation, enhancing material safety.

Thermal Isolation

Heat-generating electrodes are isolated at micro-level by high-stability materials, reducing heat transfer and accumulation.

Electrode materials receive micro-nano coating to improve thermal stability and control heat generation, enhancing material safety.

Thermal Interruption

Capturing agents consume free radicals to block thermal runaway chain reactions, raising thermal failure temperatures.

Thermal Transfer

Specialized structures redirect abnormal heat to safe zones, reducing thermal runaway risks during mechanical abuse.

Twin-Star Battery Material System

Enhanced Capacity

Twin-Star batteries contain 20% more energy than standard LFP cells, significantly extending electric vehicle range.

Rapid Charging

Supporting up to 4C fast charging, our batteries dramatically reduce charging time compared to conventional LFP.

Superior Stability

Thermal runaway temperatures reach up to 210°C, providing exceptional safety performance under extreme conditions.

Excellent Performance

Low-temperature performance and power output significantly exceed traditional LFP batteries in challenging environments.

Twin-Star Battery Material System