Technology

The future of batteries with advanced 3D architecture, powered by AI-driven structural optimization.

We use a proprietary AI-powered software, BatterAI Architect, to integrate with battery hardware and provide a complete solution. Our AI algorithms optimize battery structures based on application requirement, improve development efficiency and reduce costs with advanced simulations.

AI-optimized battery architecture with BatterAI Architect

StampL 3D current collectors design allows greater integration of active materials within the metal framework and boosts both volumetric and gravimetric energy density.

- Higher energy density for extended EV range

- Substantial increase in battery's accessible capacity

Improved energy density

The 3D architecture promotes uniform temperature distribution and efficient heat dissipation throughout the electrodes.

- Enables faster charging

- Supports higher discharge rates for high-power applications

- Minimizes "hot spots" to slow degradation

- Extends battery lifespan and operates effectively in extreme conditions

Reduced internal resistance

Our 3D structural design enhances mechanical stability and adhesion. It effectively manages battery swelling, especially for alternate chemistries.

- Increases battery safety

- Prolongs battery lifespan

- Reduces cracking and delamination

- Lowers overall ownership costs in different applications

Mechanically stable

StampL 3D structure optimizes the power-to-energy ratio for both thin and thick electrodes.

- Ideal for both high energy and high power needs

- Adaptable thickness for diverse applications and battery sizes

- Reduces electrode count, saving cost and space

- Enables very thick cathodes in emerging high-energy technologies

Increased power-to-energy ratio