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StoreDot XFC Cells Ensures Maintenance of High-Densities for Fast Charging
StoreDot has introduced its XFC battery technology wherein global players don’t need to compromise on energy density to achieve extreme-fast charging speeds on near-future EV models.
June 07, 2024. By Aishwarya
StoreDot has introduced its XFC battery technology wherein global players don’t need to compromise on energy density to achieve extreme-fast charging speeds on near-future EV models.
High energy density in EV batteries is critical, as it allows for greater driving range and smaller, lighter battery pack sizes for the same amount of stored energy. However, achieving high energy density has traditionally come at the cost of slower charging rates, reduced battery life and cycle performance.
StoreDot says that the goalposts have now shifted thanks to its XFC battery technology using silicon-dominant anodes. Its XFC cells can maintain high energy densities comparable to conventional lithium-ion batteries, while also enabling ultra-fast charging rates and long cycle life.
StoreDot’s mature and proven solution with >140Ah Pouch and Prismatic cell capacity and formats, is the only one that meets car makers’ timeline, with both high energy density (>320Wh/kg) and continuous extreme fast charging capability (>2000 consecutive 10 percent-80 percent charging cycles).
By eliminating the need to compromise on energy density, StoreDot's ‘100in5’ XFC battery cells are enabling EV users to achieve the best of both worlds - long driving range and extreme-fast charging capabilities. Solving these two critical issues could create the tipping point for mass adoption of EVs, as consumers demand EVs that don't force trade-offs between range and charging time.
Dan Corfas, Director of Product and System Engineering at StoreDot said, "Common EV cell chemistries allow for either high energy or high-power capabilities. We've changed the rules with our silicon-dominant anodes because we have developed long-lasting cells with both high energy and extreme fast charge capability. But for us, this is not just a lab concept—we’re advancing this promise into a commercially-viable, proven solution that will support car makers’ decarbonization targets and timeline."
StoreDot remains firmly on track with production-readiness of its XFC cells that deliver 100 miles charged in 5 minutes this year. The company aims to deliver 100 miles charged in 4 minutes in 2026 and 100 miles charged in 3 minutes by 2028.
High energy density in EV batteries is critical, as it allows for greater driving range and smaller, lighter battery pack sizes for the same amount of stored energy. However, achieving high energy density has traditionally come at the cost of slower charging rates, reduced battery life and cycle performance.
StoreDot says that the goalposts have now shifted thanks to its XFC battery technology using silicon-dominant anodes. Its XFC cells can maintain high energy densities comparable to conventional lithium-ion batteries, while also enabling ultra-fast charging rates and long cycle life.
StoreDot’s mature and proven solution with >140Ah Pouch and Prismatic cell capacity and formats, is the only one that meets car makers’ timeline, with both high energy density (>320Wh/kg) and continuous extreme fast charging capability (>2000 consecutive 10 percent-80 percent charging cycles).
By eliminating the need to compromise on energy density, StoreDot's ‘100in5’ XFC battery cells are enabling EV users to achieve the best of both worlds - long driving range and extreme-fast charging capabilities. Solving these two critical issues could create the tipping point for mass adoption of EVs, as consumers demand EVs that don't force trade-offs between range and charging time.
Dan Corfas, Director of Product and System Engineering at StoreDot said, "Common EV cell chemistries allow for either high energy or high-power capabilities. We've changed the rules with our silicon-dominant anodes because we have developed long-lasting cells with both high energy and extreme fast charge capability. But for us, this is not just a lab concept—we’re advancing this promise into a commercially-viable, proven solution that will support car makers’ decarbonization targets and timeline."
StoreDot remains firmly on track with production-readiness of its XFC cells that deliver 100 miles charged in 5 minutes this year. The company aims to deliver 100 miles charged in 4 minutes in 2026 and 100 miles charged in 3 minutes by 2028.
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