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STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

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STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING

StoreDot confirms that its extreme fast charging (XFC) battery cells have been tested under various charging scenarios replicating real-world charging patterns Results show that compared to standard slow charging, extreme fast charging does not degrade the cells, even after 1000 consecutive XFC cycles StoreDot’s XFC chemistry minimizes fast charging-related battery degradation and opens the door to… Continue reading STOREDOT’S EXTREME FAST CHARGING BATTERY CELLS SHOW NO ADDITIONAL DEGRADATION WHEN COMPARED TO SLOW CHARGING