High Specific Capacity · High Initial Coulombic Efficiency
High Energy Density · High Initial Efficiency · High Safety
High Energy Density · High Initial Efficiency · Long Cycle Life
It features high initial charge performance, high cycle life (10,000 cycles), high compaction density and high-rate performance, balancing energy efficiency and response speed, suitable for various energy storage working conditions.
Low pH ensures chemical stability; Successfully passes five rigorous safety tests (no fire or explosion observed). Green and low-cost, pollution-free process, meeting Sustainable Development Goals.
Compared with lithium-ion batteries, the system cost can be reduced by 30%-50%, providing a more cost-effective choice for energy storage scenarios and effectively lowering the group's energy storage expenditure.
Moderate specific energy, stable and durable, suitable for electric tricycles, light mobility vehicles and other markets.
improve operational efficiency and strengthen green logistics
Complement replace lithium-ion batteries, used in scenarios such as wind-solar energy storage and peak shaving & valley filling
Easy to deploy, meeting the self-consumption and energy storage needs of households or small parks.
Test Item | Test Condition | Test Result |
Cycle Life | 25℃ | 10,000 cycles, capacity retention rate 80% |
2C/2C | ||
Discharge Performance | 1C/10C | 98.5%,87.5% |
Low-Temperature Discharge | 1C/10C | 95.3%,90.6% |
0℃/-20℃ |
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