Pioneering Sodium Battery Technology with Siri TechnoFabs

Embrace the post-lithium era. Our proprietary sodium battery technology leverages earth-abundant sodium ions to deliver safer, sustainable, and cost-effective energy storage for stationary and automotive applications.

Explore Technology
Leading R&D at Siri TechnoFabs
Advanced sodium battery technology cells manufacturing
Hard Carbon Anode
Sodium-Ion Transfer
Non-Flammable
Cobalt Free

The Advantages of Sodium Battery Technology

We are redefining energy storage by overcoming the limitations of traditional lithium-ion batteries through advanced **sodium battery technology**.

Abundant Chemistry

Sodium is the 6th most common element on earth. Consequently, utilizing sodium carbonate instead of lithium carbonate eliminates supply chain bottlenecks and ensures price stability.

Intrinsic Safety

Unlike lithium, sodium-ion batteries can be fully discharged to 0V for storage and transport. Therefore, the risk of thermal runaway during shipping is virtually eliminated.

High-Rate Performance

Furthermore, sodium ions have high ionic conductivity in electrolytes. This allows for rapid charging capabilities, achieving 80% charge in under 20 minutes.

Engineering the Future: Sodium Battery Technology

At Siri TechnoFabs, we utilize Prussian Blue analogues and layered oxides to maximize energy density.

Learn more about our integration strategies on our power generation page.

  • Energy Density: 140-160 Wh/kg
  • Cycle Life: 3000-5000 Cycles
  • Low-Temp Capacity: 90% at -20°C
Research lab developing sodium battery technology

FAQs: Sodium Tech

Is sodium battery technology mature?

Yes, it has moved from the lab to commercial production. Major manufacturers are now deploying sodium-ion packs for EVs and grid storage. Check ScienceDirect for latest papers.

Can it replace lithium?

It complements lithium. While energy density is slightly lower, it is superior for stationary storage and budget EVs due to lower cost and higher safety.

What are the environmental benefits?

It avoids the use of cobalt and copper current collectors (using aluminum instead), significantly reducing the environmental footprint of mining and manufacturing.

Partner for Innovation

Contact the Siri TechnoFabs engineering team to explore how sodium battery technology can power your next project.

Consult Engineering