Our innovative solid-state battery is a rechargeable energy storage technology that resembles a lithium-ion battery in overall construction and operation.

However, a lithium-ion battery has a liquid electrolyte, but our solid-state battery, as the name implies, has a solid electrolyte. As a result, our solid-state battery has a higher energy density, a longer range, recharges faster, provides increased safety and is more compact and lightweight.

The energy density difference is significant.

Our solid-state batteries deliver 2.5 times higher energy density of current lithium-ion batteries.

Because of this advancement in energy density, our solid-state battery is much smaller and lighter. This is a considerable increase that will have a major improvement on the battery's capability.

Our solid-state battery has the potential to charge up to 80% in 15 minutes and is more durable after numerous charging cycles. After 1,000 cycles, a lithium-ion battery begins to degrade and lose power capability. Our solid-state battery will retain 90% of its capacity after 5,000 cycles.

Lithium-ion batteries are more dangerous than our solid-state battery. Exothermic reactions, which release energy and produce heat, occur within lithium-ion batteries. A Lithium-ion battery could expand and explode due to this heat, unleashing a flammable liquid electrolyte and creating a minor explosion. Because there is no flammable liquid electrolyte in our solid-state battery, the risk is entirely eliminated.

Our solid-state battery will retain


of its capacity after

5K+ cycles

higher energy density

2.5 times


There may be many obstacles ahead since we are at the early stages of development.

However, our solid-state battery technology is projected to be a better product in terms of the overall cost of manufacturing and performance.

There is a growing need to offer an alternative solution that addresses all the challenges of current batteries and bring power and transportation to greenhouse gas neutrality. We believe our solid-state battery is the answer.