Cylindrical Sodium Ion Cell

Abundant Raw Materials: Utilize sodium, which is widely available and low-cost compared to lithium, ensuring better supply chain security and sustainability.

Good Low-Temperature Performance: Offer superior performance in cold environments compared to some lithium-based chemistries, making them suitable for colder climates.

High Safety: Non-flammable electrolyte options and stable chemistry reduce the risk of thermal runaway or fire.

Long Cycle Life: Capable of delivering over 2000–4000 charge-discharge cycles depending on the material system and application.

Wide Operating Temperature Range: Performs reliably across a broad temperature spectrum, often ranging from -20°C to 60°C.

Fast Charging Capability: Capable of supporting high-rate charging due to favorable ion transport properties.

Environmental Friendliness: Free from cobalt, nickel, and lithium, making them more eco-friendly and easier to recycle.

Comparable Energy Density: Newer material systems are approaching the energy density of LFP cells, especially in large-format cylindrical designs.

High Power Output: Suitable for applications requiring rapid energy delivery and high current loads.

Stable Voltage Platform: Offers consistent discharge voltage, which benefits system design and battery management. 

Stationary Energy Storage Systems (ESS): Ideal for residential, commercial, and grid-level storage due to low cost, safety, and long cycle life.

Telecom Backup Power: Used in telecom base stations for reliable energy in off-grid or unstable power regions.

Electric Two- and Three-Wheelers: Suitable for e-bikes, e-scooters, and tuk-tuks in cost-sensitive markets with moderate energy requirements.

Low-Speed Electric Vehicles (LSEVs): Used in applications like electric delivery carts, forklifts, and neighborhood EVs where energy density is less critical.

Solar Energy Storage: Supports off-grid solar systems by storing excess solar power for night-time or cloudy-day usage.

Uninterruptible Power Supplies (UPS): Provides backup power for critical infrastructure such as hospitals, data centers, and industrial controls.

Industrial Equipment: Powers mobile robots, AGVs (automated guided vehicles), and energy tools used in logistics and factories.

Smart Grid Infrastructure: Used in grid-balancing systems and peak shaving applications, contributing to more resilient and efficient power networks.