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Sodium ion battery

I have found results from8000+products and2000+suppliers aboutSodium ion battery

Commonly Used:
US$
Customization Available
Sample Available
Manufacturer First
Product Attributes:
Type: Li-ion Battery
Cathode Material: LFP
Rechargeable: Yes
Series and Parallel
Medium Discharge Rate
Size: Medium
Accessories Type: Battery
Remote Control Boat
Nominal Voltage: 48V
Shape: Square Battery
Installation: Packaged
Rated Capacity: >1000MAH
Standard Voltage: >12V
Cathode Material: NCA
Rechargeable: Chargeable
Rechargeable: No
High Discharge Rate
Low Discharge Rate
Ultrahigh Discharge Rate
Size: Small
Size: Large
Accessories Type: Chargers
Remote Control Plane
Remote Control Car
Usage: UPS
Usage: Electric Power
Usage: Car
Usage: Bus
Usage: Lighting
Usage: Electric Bicycle
Usage: Boat
Nominal Voltage: 12V
Nominal Voltage: 1.5V
Shape: Flat Battery
Shape: Cylindrical Battery
Installation: Fixed
Installation: Open Frame
Rated Capacity: 100MAH<

Sourcing guidance for Sodium Ion Battery

What are the key technical specifications to evaluate when sourcing Sodium Ion Batteries?

When selecting Sodium Ion Batteries (SIBs), buyers must focus on Energy Density, which typically ranges from 100-160 Wh/kg. It is crucial to verify the Cycle Life, as high-quality industrial cells should exceed 2,000 to 3,000 cycles at 80% Depth of Discharge (DoD). Additionally, check the Operating Temperature Range; one of the primary advantages of SIBs is their performance in cold climates, often maintaining over 90% capacity at -20°C. Ensure the Discharge Rate (C-rate) meets your application needs, whether for steady energy storage or high-power bursts.

Which safety and compliance standards are mandatory for international trade of Sodium Ion Batteries?

Compliance is non-negotiable for hazardous materials. Suppliers must provide UN38.3 Test Reports for safe air and sea transport. For global market access, look for IEC 62619 (safety requirements for large-scale industrial applications) and UL 1973 (batteries for use in stationary applications). If the product is destined for the European market, CE marking and RoHS compliance are essential to ensure the absence of restricted hazardous substances.

How does the economic feasibility of Sodium Ion Batteries compare to Lithium-ion (LFP/NCM)?

Sodium Ion Batteries offer a significant cost advantage, potentially 30-40% lower in raw material costs compared to Lithium-ion, as sodium is abundant and inexpensive. However, because the industry is still scaling, the current Total Cost of Ownership (TCO) is most competitive in Stationary Energy Storage Systems (ESS) and Low-speed Electric Vehicles (LSEVs). Buyers should negotiate based on price-per-kWh and seek suppliers who utilize aluminum foil for both anodes and cathodes, which further reduces costs compared to the copper foil required in Lithium batteries.

What are the typical usage scenarios where Sodium Ion Batteries outperform other technologies?

SIBs are ideal for Grid Energy Storage due to their safety and cost-efficiency over long durations. They are also highly effective for Telecommunication Base Stations in extreme environments because of their superior thermal stability and resistance to thermal runaway. For the consumer market, they are increasingly used in Electric Two-wheelers and Power Tools, where fast-charging capabilities (reaching 80% state of charge in 15 minutes) provide a competitive edge.

Cross-Border Procurement & Risk Management for Sodium Ion Batteries

What are the primary risks in cross-border purchasing of Sodium Ion Batteries?

The main risks include Logistics Hazards and Regulatory Non-compliance. Batteries are classified as Class 9 Dangerous Goods, requiring specialized packaging and documentation. To mitigate risk, use Made-in-China.com's secured payment services and verify that the supplier has a valid Dangerous Goods Packing Certificate. Failure to align with the destination country’s import policies can lead to customs seizures or heavy fines.

How should I negotiate with suppliers to ensure quality and long-term reliability?

Negotiate for a Performance Guarantee rather than just a low unit price. Request a Batch Testing Report for every shipment and insist on a Warranty Period of at least 3-5 years for ESS applications. For large orders, suggest a milestone-based payment structure where the final balance is paid only after a third-party pre-shipment inspection (PSI) confirms the technical specs match the proforma invoice.

What shipping methods are recommended for transporting Sodium Ion Batteries to international markets?

For bulk orders, Sea Freight (FCL/LCL) is the most economical and standard method for Class 9 goods, provided the vessel accepts hazardous materials. For urgent samples, Specialized Air Cargo is possible but expensive and requires strict adherence to IATA Dangerous Goods Regulations. Always ensure the Incoterms are clearly defined; CIF (Cost, Insurance, and Freight) or DDP (Delivered Duty Paid) are often preferred by buyers to shift the complex logistics and insurance responsibilities to the experienced exporter.

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