Battery

World’s first all-solid-state battery in production vehicles. Available today.

400 Wh/kg | Full charge in 5 min | Designed for 100,000 cycles | Lower cost than Li-ion

A sleek, rectangular electronic device labeled "DONUT Solid State" is illuminated dramatically against a dark background, highlighting its modern, metallic design.

Designed for
real world deployment.

A rectangular, metallic battery cell with two tabs protruding from one end is displayed against a dark gradient background. The battery has a sleek, flat design and smooth surface. A rectangular, metallic battery cell with two tabs protruding from one end is displayed against a dark gradient background. The battery has a sleek, flat design and smooth surface.
Line graph showing battery state of charge (%) increasing over time (seconds), starting at 0 and rising to nearly 1, with the rate slowing down after about 250 seconds. The background is dark with a light gradient effect. Line graph showing battery state of charge (%) increasing over time (seconds), starting at 0 and rising to nearly 1, with the rate slowing down after about 250 seconds. The background is dark with a light gradient effect.
Bar chart comparing battery cycle lifespans: Typical Lithium-ion (1000–1500 cycles), High-end Lithium-ion (5000 cycles), and Verge Next Battery (100,000 cycles), with Verge Next showing a much longer bar. Bar chart comparing battery cycle lifespans: Typical Lithium-ion (1000–1500 cycles), High-end Lithium-ion (5000 cycles), and Verge Next Battery (100,000 cycles), with Verge Next showing a much longer bar.
A close up of a black object. A close up of a black object.
A sleek, rectangular, metallic gray object with smooth edges and a minimalist design, suspended against a gradient blue-gray background. A sleek, rectangular, metallic gray object with smooth edges and a minimalist design, suspended against a gradient blue-gray background.
Energy density

400 Wh/kg at pack level. More energy. Less mass. More range or smaller packs.

Fast charging

In as little as 5 minutes to full charge. Charge to 100%. Discharge to 0%.

100,000 Cycles

Designed for extreme lifetime. Built for daily fast charging and continuous use.

Extremely Safe

No flammable liquid electrolytes. Operates safely in extreme heat and cold.

Low Cost

Lower cost than lithium ion. Designed for scalable production across all applications.

400 Wh/kg at pack level. More energy. Less mass. More range or smaller packs.

In as little as 5 minutes to full charge. Charge to 100%. Discharge to 0%.

Designed for extreme lifetime. Built for daily fast charging and continuous use.

No flammable liquid electrolytes. Operates safely in extreme heat and cold.

Lower cost than lithium ion. Designed for scalable production across all applications.

Close-up of stacked, sleek, black rectangular objects with rounded edges and metallic lines, creating a modern, abstract geometric pattern.

400 Wh/kg

The Verge Battery delivers 400 Wh/kg of energy density. In practice, this enables longer range, lighter structures, and greater freedom in vehicle and product design, delivering performance gains without architectural trade offs.

Full charge 

in 5 minutes

There is no need to limit charging to 80%. Full charge and full discharge are safe, repeatable, and expected in daily operation, supporting demanding use cases without limiting battery life.

Close-up of two sleek, black and metallic rectangular objects with smooth lines and beveled edges, set against a blurred, abstract background with silvery and blue tones.
A chart compares battery lifespans: Typical Lithium-ion lasts 1,000–1,500 cycles, High-end Lithium-ion lasts 5,000 cycles, and Verge Next Battery lasts 100,000 cycles, shown as horizontal bars.

Designed for 
100,000 cycles

Unlike lithium ion, Verge Battery is designed to degrade at a significantly slower rate. Minimal capacity fade supports long service life under continuous use and repeated fast charging.

Extreme safety by design

Verge Battery addresses the primary root 
causes of battery fires by design.

No flammable liquid electrolytes

No thermal runaway chains

No metallic dendrites that 

can cause internal shorts

A digital image showing a close-up of a black, ridged object with the text "-30°C" in large white font overlaid in the center, indicating a temperature of minus 30 degrees Celsius.

Operation in extreme cold environments

At -30 degrees celsius, Verge Battery retains over 99% of its capacity.

Operation in extreme heat environments

Heating the cells beyond 100°C – the battery retains over 99% of it’s capacity. With no signs of ignition or performance degradation.

A digital display shows the temperature "100 °C" in white text on a gray metallic background.
Close-up of a modern electric scooter’s handlebars and digital display showing a speed of 0 km/h, with a sleek, minimalist design and soft lighting in the background.

Abundant, geopolitically
safe materials

The battery is built entirely from green, abundant materials that are available worldwide, avoids reliance on rare or geopolitically sensitive resources, and achieves a lower material cost compared to conventional lithium-ion batteries.

Clay-like 

design freedom

The battery adapts to the product rather than forcing the product to conform to the battery. It supports custom sizes, voltages, and geometries, enables structural battery integration, and allows non-traditional formats where the battery can function as part of the body, frame, or chassis itself.

A modern, minimalist electric scooter in matte brown is displayed on a glowing white platform against a dark background, highlighting its sleek and futuristic design.

Contact us

The world’s first production-ready all-solid-state battery platform is available today. Tell us what you’re building, and explore how Verge Battery fits your program.

Contact us