Solving the Challenge of
Recharging
Lithium Metal Batteries
The Problem
Rechargeable lithium metal batteries promise high energy density but face a crucial limiting challenge.
When recharging lithium metal batteries, tiny, needle-like structures called dendrites form on the lithium metal surface. These microscopic formations grow in tree-like patterns as lithium ions deposit unevenly during charging cycles.
The Hidden Danger
A single dendrite piercing through the
battery separator can trigger catastrophic failure.
These sharp structures pose a serious threat: they can penetrate the separator between the battery's positive and negative sides. When this happens, it creates an internal short circuit that can lead to overheating, performance loss, or complete battery failure.
Breakthrough Solution
Our proprietary technology ensures even lithium ion deposition, effectively solving the dendrite challenge.
Through advanced materials, engineering, and innovative design, we've developed technology that controls how lithium ions deposit during charging. This breakthrough inhibits dendrite formation, making lithium metal batteries both safer and more reliable for high-performance applications.
Our Technology Delivers Safety and Performance
Safety
Non-Flammable Electrolyte for Enhanced Safety
Shutdown Separator for Added Protection
Extended Temperature Safety Margin
Less Reactive and Less Toxic Electrolyte
Performance
No Passivation Issues
High Capacity
Wide Temperature Range
Superior Rate Capability