The future of charging
StoreDot innovation is based on a holistic design process, which integrates the cell chemistry and its system engineering.
Our methodology includes a layer of artificial intelligence and machine learning tools to optimize the overall system. This overcomes the limitations to ultra-fast charging lithium-ion batteries while utilizing standard lithium-ion battery manufacturing facilities and processes.
Holistic approach to fast charging
Why is FlashBattery technology unique?
Nano Materials: High electrochemical energy nano-particles
as active material are important for high electrochemical activity and are designed to increase conductivity. nano-particles enable ultra-fast charging and higher storage density.
Organic Binders: Proprietary anode binder used to adhere particles of active materials and conductive additives; optimized to have low impedance to current flow.
Organic Electrode Additives: Proprietary organic compound additives in the electrodes reduce mechanical strain and prevent undesired side reactions between the electrode and electrolyte.
Organic Electrolyte Additives: Tailored electrolyte additives provide metalloid anodes increased surface and bulk stabilities, improving long-term cycling and calendar life.
Formation process: enables stable solid electrolyte interphase (SEI) for preventing irreversible consumption of electrolyte and lithium ions.
Using nano-materials and organic compounds
coated in a very thin layer of up to 10 microns
Self-healing 3D organic polymers enhancing mechanical strength
Addressing Si Challenges
Cell design should include
The cell should avoid
Swelling of the active materials
At the system level
Cells assembled in the pack must be balanced and have low resistance
Extreme-fast charging should work well under low temperatures
The manufacturing process of StoreDot extreme-fast charging is simple, scalable, and fully compatible with existing lithium-ion battery technology.