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Australian researchers unveil new sodium-ion battery design

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Australian researchers unveil new sodium-ion battery design



Scientists from the University of Wollongong in Australia have developed battery cells based on sodium-ion technology which the university says can achieve excellent cycling stability and easily be scaled up to mass production.

Sodium-ion batteries are an increasingly competitive area of research, thanks to their potential for low cost energy storage based on abundant, non-toxic materials. While the technology does not have energy density levels comparable to lithium-ion, it still thought of as viable for stationary storage projects and other areas where size is not a primary concern.

The material has so far seen little commercial adoption, as many of the materials required are sensitive to air and therefore expensive to produce and maintain performance levels.

Now, researchers at University of Wollongong’s Institute for Superconducting and Electronic Materials (ISEM) have developed a material which is not sensitive to air, and exhibits strong cycling stability. The proof of concept cells developed by the team are described in the journal Advanced Energy Materials.

The researchers now plan to work on optimizing the material to maximize its cycle life and ease of manufacturing. “With new materials and processing techniques we can focus on further development that will pave the way for the transition to commercialisation of this exciting and much-needed alternative to lithium-ion batteries.”

ISEM researchers also published an additional paper in Advanced Energy Materials which offers a broader discussion of progress toward commercialization of sodium-ion technology, and identifying key indicators for commercial viability.

“Commercial full-cell design includes optimising capacity balancing between the cathode and the anode, finding a stable electrolyte solution, choosing appropriate additives and binders, selecting a separator, as well as the production costs of the active materials for the electrodes and the overall manufacturing cost of the batteries,” says Luo. “To a large extent, how the cycling performance, or battery lifespan, satisfies the requirements of large energy storage systems will determine its commercialisation progress. We need to develop batteries that provide a long life-span to justify the investment.”



Source PV Magazine

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