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Rewriting the Rules of Battery Design
The Science Behind
Superior Performance
Our batteries use a proven vanadium-based chemical process. The electrolyte is embedded in a porous solid structure and managed by a high-performance separator, eliminating complex control systems. The result is a compact, stable, and low-maintenance energy storage solution.
This design delivers high power, thermal stability, and long service life.
Rewriting the Rules of Battery Design
The Science Behind Superior Performance
Our batteries use a proven vanadium-based chemical process. The electrolyte is embedded in a porous solid structure and managed by a high-performance separator, eliminating complex control systems. The result is a compact, stable, and low-maintenance energy storage solution.
This design delivers high energy density, extremely low self-discharge, and long service life.
THIS IS HOW
WE COMPARE
Solid-state
Solid porous electrolyte base improves safety and reliability.
Protons, beyond ions
Delivering high C-rate and fast response.
No rare earths
Supporting better recyclability and resilient local supply chains.
Bi-polar design
Enabling scalability through stacked cell architecture.
Rewriting the Rules of Battery Design
Power, Reinvented
Not all batteries are built the same. Our chemistry delivers safety and longevity far beyond lithium-based technologies.
The Breakthrough of VSSB
Inherent Stability: Solid-state design eliminates physical stress and degradation.
Extreme Longevity: Built as permanent infrastructure with no moving parts to wear out.
Simplicity & Efficiency: No need for complex external cooling or management systems.
The Challenges of LFP
Complex Construction: Multi-layered system prone to physical stress.
Faster Degradation: Physical intercalation of ions causes cumulative damage over time.
Heat Generation: Requires costly and complex external thermal management systems.
Rewriting the Rules of Battery Design
Power, Reinvented
Not all batteries are built the same. Our chemistry delivers safety and longevity far beyond lithium-based technologies.
The Breakthrough of VSSB
Inherent Stability: Solid-state design eliminates physical stress and degradation.
Extreme Longevity: Built as permanent infrastructure with no moving parts to wear out.
Simplicity & Efficiency: No need for complex external cooling or management systems.
The Challenges of LFP
Complex Construction: Multi-layered system prone to physical stress.
Faster Degradation: Physical intercalation of ions causes cumulative damage over time.
Heat Generation: Requires costly and complex external thermal management systems.
