Sodium Ion Battery Cell|Batch Sodium Batteries
Sodium Ion Battery Cell|Batch Sodium Batteries
Sodium Ion Battery Cell|Batch Sodium Batteries
Sodium Ion Battery Cell|Batch Sodium Batteries
Sodium Ion Battery Cell|Batch Sodium Batteries
Sodium Ion Battery Cell|Batch Sodium Batteries
Model
ELE32140/ELE40140/ELE50160118 Sodium-Ion Battery Cell

Item specifics

Capacity
7~80Ah
Voltage
1.5V~4.1V
Operating Temperature
-40℃~60℃
Cycle Life
≥ 3000 Cycles
Usage
Golf cart battery,Scooter battery,etc.
Color
white/black/blue/or customized

Review

Description

  • Features
  • Tech Specs
  • Faq
  • About Factory
Sodium Ion Battery details

 E-lary Sodium Ion Battery Cell

The world is at a crossroads when it comes to energy. As global electricity demand continues to grow, coupled with the urgent need to reduce our carbon footprint, finding sustainable, efficient energy storage solutions has become critical. Nowadays, lithium resources are scarce and costly, making sodium-ion batteries a promising competitor in the search for clean energy.

E-lary's sodium ion battery cell has made a breakthrough in energy density and has the advantages of cost advantage, excellent fast charging performance, low temperature performance and good safety performance. It can be applied to various low-speed vehicles through assembly and is suitable for large-scale power storage. Application scenarios.

Why Choose Sodium Ion Battery Cell

Sodium ion batteries cell hold tremendous promise in reshaping our energy landscape. Their unique combination of sustainability, cost-effectiveness, and versatility positions them as a key player in the transition towards a greener and more sustainable future. 


Sodium Ion Battery
Sustainability and Abundance
One of the standout advantages of sodium ion battery cells is their reliance on sodium, a widely available and abundant resource. This contrasts sharply with lithium-ion batteries, which rely on lithium—a resource that faces supply challenges and environmental concerns. Sodium, on the other hand, is plentiful and sustainable.
Why Choose Sodium Ion Battery Cell 2
Enhanced Safety
Safety is a paramount concern when it comes to battery technology. Sodium ion battery cells offer improved safety compared to their lithium-ion counterparts. Sodium is less reactive than lithium, reducing the risk of thermal runaway and the associated hazards of overheating and fires.
Why Choose Sodium Ion Battery Cell 3
Cost-Effectiveness
Cost considerations play a significant role in the adoption of energy storage solutions. Sodium ion battery cells are cost-effective due to the abundance of sodium resources and the lower production costs associated with them. This cost advantage can translate into more accessible and affordable energy storage options.

Optional E-lary Sodium Ion Battery Cells

Optional E-lary sodium ion batteries cells 1
Optional E-lary sodium ion batteries cells 2
Optional E-lary sodium ion batteries cells 3
Optional E-lary sodium ion batteries cells 4

Sodium Ion Battery Cells with other Batteries








Sodium Ion Battery Cells with other Batteries 1
Sodium Ion Battery Cells with other Batteries 2

E-lary Sodium Ion Battery Cells Application Scenario

Assembled into battery packs for Golf carts, scooters, electric bicycles, AGVs, electric motorcycles and various energy storage batteries

E-lary sodium ion battery cells Application Scenario 1
Sodium-Ion Battery For Golf Carts

Using sodium-ion batteries in golf carts is a potential eco-friendly and cost-effective solution compared to traditional lead-acid batteries. 
Evaluate your golf cart to determine if it's compatible with sodium-ion batteries cells. Check the voltage and size requirements, as well as the available space for the battery pack.Choose sodium-ion batteries cells that meet the voltage and capacity requirements of your golf cart. 

Sodium-Ion Battery For Scooter
Sodium-ion battery cells are safer than some other battery chemistries, such as lithium-ion battery cells, because they are less prone to thermal runaway and have a lower risk of catching fire. Safety features such as overcharge protection and thermal management should still be included in the scooter's design to ensure safe operation.
Sodium-ion batteries have the potential to reduce manufacturing costs compared to lithium-ion batteries.
They could offer similar energy density and cycle life, making them suitable for e-scooter applications.
E-lary Sodium Ion Battery Cells Application Scenario 2
E-lary Sodium Ion Battery Cells Application Scenario 3
Sodium-Ion Battery For Electric Motorcycles
Sodium-ion batteries cell can offer a long cycle life, meaning they can be charged and discharged many times before capacity significantly degrades. This is advantageous for electric motorcycles that require durability and reliability.
E-lary sodium-ion battery designs have demonstrated the ability to charge quickly, which is advantageous for electric motorcycles when you need to recharge on the go.
Sodium-Ion Battery For Home Energy Storage
Sodium-ion cells can provide cost-effective energy storage solutions, especially for large-scale applications such as grid energy storage and renewable energy integration. Sodium is less expensive compared to lithium.
Sodium-ion batteries offer long cycle life, meaning they can be charged and discharged multiple times before their capacity drops significantly. This durability makes them suitable for energy storage batteries where reliability and longevity are critical.
E-lary Sodium Ion Battery Cells Application Scenario 4

Sodium Ion Battery Cells Parameter

Parameter
Model Number
ELE32140
ELE40140
ELE50160118 
Battery Type
Sodium ion battery cell
Sodium ion battery cell
Sodium ion battery cell
Brand Name
E-Lary
E-Lary
E-Lary
Voltage
3.0v~3.5v
3.0v~3.5v
3.0v
Operating Voltage
1.5v~4.1v
1.5v~4.1v
1.5v~4.0v
Cycle Life
≥ 3000 Cycles
≥ 3000 Cycles
≥ 3000 Cycles
What is a sodium-ion battery cell?
E-lary sodium-ion battery cell is a fundamental unit of a sodium-ion battery that stores and releases electrical energy using sodium ions (Na+) as charge carriers.
What applications are your sodium-ion batteries cell suitable for?
E-lary's sodium-ion battery cells are customized and assembled into battery packs and used in golf carts, sightseeing cars, electric bicycles, electric motorcycles, electric tricycles, AGVs, forklifts, and A00-grade power vehicles. It can also be used in a variety of energy storage batteries as a home backup power source.
What are the advantages of sodium-ion battery cell?
Sodium-ion battery cell have made breakthroughs in energy density and have advantages such as cost advantages, excellent fast charging performance, low-temperature performance, and good safety performance. They are suitable for batteries in low-speed small vehicles and are also suitable for large-scale power storage applications.
Are sodium-ion battery cell safer than lithium-ion battery cell?
Compared with some types of lithium-ion battery cell, sodium-ion battery cell have better low-temperature performance, are safer in terms of thermal stability, and have a lower risk of thermal runaway, and sodium-ion batteries also support 0-voltage transportation
What are the key components of a sodium-ion battery cell?
A sodium-ion battery cell typically consists of an anode (where sodium ions are stored during charging), a cathode (where sodium ions are stored during discharging), an electrolyte (to facilitate ion movement), and a separator (to prevent electrical short circuits).

About Factory

E-lary Sodium Ion Battery Cells Application Scenario
E-lary Sodium Ion Battery Cells Application Scenario
E-lary Sodium Ion Battery Cells Application Scenario