Katherine MackMay 31, 20251 min read

Exploring Lithium Sodium: A Safer, Scalable Option for Energy Storage?

As battery chemistries advance, new options like Lithium Sodium (Na-Ion) are entering the spotlight, offering a unique mix of safety, affordability, and durability. While not yet mainstream, its progress is drawing serious interest from developers like PhD Energy, CATL, and BYD.

Why now? Because the battery world is facing growing pressure to balance safety, scalability, and affordability, especially for grid and industrial energy storage.

While lithium-ion chemistries like NMC and LFP have dominated for years, Na-Ion offers a new path forward with fewer raw material constraints and a safety profile that’s hard to ignore.

What Makes Sodium Stand Out?

Similar Energy Density to LFP:
Na-Ion cells like the S32140-10NS (3.05V, 10Ah) offer 140–160 Wh/kg, on par with standard LFP cells. They also support 3C continuous discharge and 15C pulse discharge, making them viable for medium-demand applications.
Long Cycle Life:
Na-Ion offers a cycle life between 1,500–4,000 cycles, giving it the endurance needed for grid and utility-level projects.
Lower Raw Material Costs:
Sodium is widely available and significantly cheaper than lithium, making it an attractive option for cost-sensitive sectors.
Outstanding Safety Profile:
Na-Ion batteries are non-flammable, and many models are rated safe for transport at 0V, eliminating a major logistics risk for battery-powered systems.

The Trade-Offs

Despite the advantages, there are a few key limitations:

Poor charging performance below 0°C
Lower energy density than NMC or NCA
Non-standard safety circuitry (3.05V operating range)

While these factors may limit Na-Ion’s use in high-performance applications, they won’t stop adoption in sectors that value cycle life, cold-weather reliability, and low cost over peak energy density.

Where Does It Fit?

Today, Na-Ion is best suited for:

Stationary storage
Utility-scale backup
EVs with shorter range needs
Cold-climate industrial applications

Rose Batteries is monitoring these advancements and working closely with cell developers to ensure safe, smart integration when the timing’s right.

Curious if Lithium Sodium fits your next energy system?

Let’s talk!

Katherine Mack

Katherine Mack has over 38 years of experience in designing and developing custom battery systems for industrial and medical OEMs requiring portable power. For the past 20 years, she has been the Vice President of Sales & Marketing for Rose Electronics, a high technology battery pack assembler. Over the years, Katherine has focused her career particularly on portable cell chemistries, cell vendors and smart battery solutions. She was a member of the IEEE P1625 Working Group for establishing Safety Standards for Mobile Computing and has given several web based battery seminars in conjunction with Texas Instruments. She has presented papers at Microsoft's WinHEC and IQPC's Battery and Fuel Cell Technology Conference, and has published several articles and white papers for Battery Power Products and Technology Magazine, Electronic Component News, and Medical Design & Development Magazine. Katherine holds a Bachelor of Arts in Business Administration from the Honors College at the University of Oregon.