Detail Information |
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Place of Origin | Shenzhen | Brand Name | Mottcell |
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Model Number | SM-ISR | Cycle Life: | Long |
Capacity: | 2300mAh | Recharge Time: | Short |
Discharge Rate: | ≥4C | Size: | 26650 |
Nominal Voltage: | 3.2V | Energy Density: | 140Wh/kg |
Operating Temperature: | -20~55˚C | High Light: | 140Wh/kg Sodium Ion Batteries,2300mAh Sodium Ion Batteries |
Efficient Sodium-Ion Battery Short Recharge Time ≥4C Discharge Rate
Sodium-ion batteries are gaining attention as a potential alternative to lithium-ion batteries due to their advantages. These batteries use sodium ions rather than lithium ions, and they are lower in cost and more abundant in sodium resources in comparison. Additionally, they possess a good safety profile, are highly energy dense, and may have a long cycle life.
Further research and development are necessary to maximize their performance and enhance commercial viability. This technology could help provide renewable energy storage, electric vehicles, and grid-level energy storage, thus contributing to a sustainable and efficient energy system.
Due to the abundance and low cost of sodium, sodium-ion batteries present a cost-effective alternative to lithium-ion batteries. They have a high energy density, which allows them to store a significant amount of energy in a compact size, while also providing excellent safety and stability properties.
Moreover, sodium-ion batteries deliver a long cycle life, meaning they can be repeatedly charged and discharged without significant capacity loss. All these features make sodium-ion batteries a highly attractive option for renewable energy storage, electric vehicles, and grid-level energy storage.
In conclusion, the superior characteristics of sodium-ion batteries ensure that they can provide a sustainable and efficient source of energy in many applications, ultimately improving the energy landscape.
Property | Value |
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Energy Density | 140Wh/kg |
Capacity | 2300mAh |
Nominal Voltage | 3.2V |
Cut-off Discharge Volt | 1.5V |
Cycle Life | Long |
Size | 26650 |
Operating Temperature | -20~55˚C |
Discharge rate | ≥4C |
Safety | High |
Recharge Time | Short |
Sodium-ion batteries are an increasingly attractive alternative to traditional lithium-ion batteries, due to their cost-effectiveness and abundance of raw materials, such as sodium. They can be used in renewable energy storage systems, allowing greater efficiency in storing the excess energy generated from renewable sources such as solar and wind power. Additionally, sodium-ion batteries are catching on in the electric vehicle market, providing a sustainable power source.
Furthermore, sodium-ion batteries are well-suited to grid-level energy storage, providing the power grid with stability and reliability. Moreover, their potential use in portable electronics and wearable devices is expected to open up further areas of application. Lastly, with ongoing research and development, sodium-ion batteries are seen to be essential for transitioning to a more sustainable and energy-efficient future.
Sodium ion batteries should be properly packaged and shipped to prevent any damage during transportation. When packaging and shipping sodium ion batteries, the following precautions should be taken:
The package must also include a Declaration of Conformity, stating that the batteries are safe for transportation and in compliance with the rules and regulations of the transportation authority.
Q1:What is a sodium-ion battery?
A1:A sodium-ion battery is a new type of battery technology that uses sodium ions as the charge carrier, instead of the traditional lithium ions. This battery has potential high energy density and longevity, as well as the use of safer and more environmentally friendly electrolytes.
Q2:What are the advantages of a sodium-ion battery?
A2:Sodium-ion batteries have some important advantages. Firstly, they have high energy density, which means they can store more electrical energy. Secondly, sodium-ion batteries charge faster and can be charged more quickly. In addition, sodium-ion batteries have a longer lifespan and can be used repeatedly for a longer time. Finally, sodium-ion batteries use safer and more environmentally friendly electrolytes, resulting in less environmental impact.
Q3:What are the differences between a sodium-ion battery and a lithium-ion battery?
A3:The main difference between a sodium-ion battery and a lithium-ion battery is that they use different anode and cathode materials. Lithium-ion batteries use lithium metal as the anode, while sodium-ion batteries use sodium metal as the anode. In addition, the electrolyte of a sodium-ion battery is also different from that of a lithium-ion battery.
Q4:What applications can a sodium-ion battery be used for?
A4:Sodium-ion batteries can be used in many applications. They can be used for power storage systems, such as in renewable energy systems like wind and solar energy. In addition, they can also be used in electric vehicles and electronic devices.
Q5:What are the future trends in the development of sodium-ion batteries?
A5:The future trends in the development of sodium-ion batteries are to improve energy density and lifespan, reduce costs, and achieve large-scale production. In addition, researchers are exploring new electrolyte and electrode materials to further improve the performance and safety of the battery.