We develop sodium-ion battery cells using locally sourced, abundant materials - for a sustainable and resilient future.
Today's sodium-ion batteries suffer from immature supply chains and low technological maturity. We solve that.
*conventional NFM111-based sodium-ion battery cells
X: does not meet the criterion, O: meets the criterion moderately, ✓: meets the criterion fully
Europe imports most of its battery materials, losing industrial control and competitiveness.
Geopolitical tensions and trade barriers heighten supply chain risks.
Limited traceability of imported materials raises ethical and sustainability concerns.
Despite European cell production, manufacturers depend heavily on imported energy storage materials.
Existing solutions face significant cost penalties when produced locally.
Litona develops and supplies high-quality sodium-ion battery cells, Prussian White–based coated electrodes, and Prussian White powder – tailor-made for your applications.
Quality made in Germany.
Sodium-ion cells based on abundant elements like sodium.
Scaling faster by leveraging existing supply chains.
Our local sourcing model not only reduces costs and CO₂, it enables European energy independence.
Reduces the risk of thermal runaway
Eliminates the need for complex thermal management
Enables safe transport and storage
Compatible with existing LFP voltage profiles
We develop cells tailored to your specifications, or provide ready-to-use solutions.
Applications include systems without active temperature control or those designed for maintenance-free, cost-efficient operation.
Our cell technology is based on the cathode material Prussian White. It allows us to use locally sourced, affordable raw materials. Our proprietary Prussian White production process reduces production steps, time, and energy consumption.
Contact us to secure your Prussian white powder, electrodes, or cells.
With advanced material development and close integration into cell design, we adapt quickly to customer needs and shorten development cycles for next-generation cell concepts.
