Salt batteries are about to shake up EVs and grid storage
Today, most rechargeable batteries are made from lithium ions, but sodium-ion alternatives could make battery tech much cheaper and offer other advantages
Today, most rechargeable batteries are made from lithium ions, but sodium-ion alternatives could make battery tech much cheaper and offer other advant
Read Full Story at New Scientist โWhy This Matters
The shift from lithium-ion to sodium-ion batteries isn't just about costโit's a potential rebalancing of global supply chains that could democratize energy storage. As nations seek to secure critical battery materials, sodium offers a more abundant alternative that could reduce geopolitical dependencies while maintaining performance in key applications.
Background Context
Lithium-ion dominance has been decades in the making, but its reliance on scarce materials like cobalt and nickel has long raised concerns about scalability and ethics. Sodium, by contrast, is extracted from seawater and brine pools, with reserves hundreds of times greater than lithium. Early sodium-ion prototypes struggled with energy density, but recent breakthroughs in electrode design now challenge lithium's supremacy.
What Happens Next
Expect a two-tier market to emerge: sodium-ion for stationary storage and budget EVs, while lithium-ion retains dominance in premium applications. Regulatory bodies may accelerate safety testing standards as sodium's non-flammable properties become a selling point. Watch for announcements from major automakers weighing sodium-based partnerships against lithium investments.
Bigger Picture
This transition reflects a broader pivot toward materials abundance in techโmirroring shifts from rare earths to silicon in semiconductors. As battery demand explodes, the sodium-ion rollout could become a case study in how industrial innovation can bypass resource bottlenecks while reviving dormant supply chains.

