3D Solid State Batteries

LionVolt Batteryblock

Better performance

Energy density over 450 Wh/kg

 

Our technology enables the use
of high-capacity materials

Scalable production

By using cheap and easily processable materials

We make use of scalable roll-to-roll
manufacturing processes

Intrinsically safe

No ignition or explosion risks

Solid-state batteries even operate
safely at elevated temperature

Disruptive 3D architecture

Materials agnostic

Our patented 3D approach uniquely differentiates the technology from others

Sustainable

Heavy-metal-free materials and circular processes

We implement green alternatives,
in contrast to conventional batteries

High charging speed

No everyday struggle of long charging times

>4C/15 minute charge enabled
by thin films

Better performance

Energy density over 450 Wh/kg

Our technology enables the use
of high-capacity materials

Scalable production

By using cheap and easily processable materials

We make use of scalable roll-to-roll
manufacturing processes

Intrinsically safe

No ignition or explosion risks

Solid-state batteries even operate
safely at elevated temperature

Disruptive 3D architecture

Materials agnostic

Our patented 3D approach uniquely differentiates the technology from others

Sustainable

Heavy-metal-free materials and circular processes

We implement green alternatives,
in contrast to conventional batteries

High charging speed

No everyday struggle of long charging times

>4C/15 minute charge enabled
by thin films

The Z dimension

While the majority of the battery industry today focuses on developing new materials, we at LionVolt work on a new 3D architecture for the future battery, which is complimentary and agnostic to the battery materials. First, compared to regular batteries, the lithium ions need to travel only very short distances, translating into faster charging and higher power.

Secondly, there is no liquid electrolyte involved, meaning a longer lifespan and no danger of fires or explosions. And thirdly, the design enables higher energy density due to a high loading of active material possible per areal square centimeter of the 3D substrate. Besides, it’s easily customizable to different shapes.

    Contact

Headquarters

LionVolt B.V.
High Tech Campus 31
5656AE Eindhoven
The Netherlands