Advanced Technology
Primary Lithium Battery
★Control technology of carbon electrode
Achieving different battery performance,meeting customized requirements of customers.
★ Catalyst technology with wide operating temperature range
The battery shows good performance in the temperature range of - 60 ℃ ~ 100 ℃. Annual self-discharge rate at room temperature is ≤ 1%. Lithium thionyl chloride batteries have a reliable life expectancy of more than 20 years.
Achieving different battery performance,meeting customized requirements of customers.
★ Catalyst technology with wide operating temperature range
The battery shows good performance in the temperature range of - 60 ℃ ~ 100 ℃. Annual self-discharge rate at room temperature is ≤ 1%. Lithium thionyl chloride batteries have a reliable life expectancy of more than 20 years.
Primary Lithium Battery
★Control technology of carbon electrode
Achieving different battery performance,meeting customized requirements of customers.
★ Catalyst technology with wide operating temperature range
The battery shows good performance in the temperature range of - 60 ℃ ~ 100 ℃. Annual self-discharge rate at room temperature is ≤ 1%. Lithium thionyl chloride batteries have a reliable life expectancy of more than 20 years.
Achieving different battery performance,meeting customized requirements of customers.
★ Catalyst technology with wide operating temperature range
The battery shows good performance in the temperature range of - 60 ℃ ~ 100 ℃. Annual self-discharge rate at room temperature is ≤ 1%. Lithium thionyl chloride batteries have a reliable life expectancy of more than 20 years.
Consumer Li-ion Battery
★Headsets battery
High voltage(≥4.4V).
Innovative structure.
Fast charge: charge 1 minute, listen 1 hour.
★Wearable battery
High voltage(≥4.45V).
3C-10C fast charge.
★E-cigarette battery
High voltage(≥4.4V).
Fast charge.
Low self-discharge rate.
High voltage(≥4.4V).
Innovative structure.
Fast charge: charge 1 minute, listen 1 hour.
★Wearable battery
High voltage(≥4.45V).
3C-10C fast charge.
★E-cigarette battery
High voltage(≥4.4V).
Fast charge.
Low self-discharge rate.
Consumer Li-ion Battery
★Headsets battery
High voltage(≥4.4V).
Innovative structure.
Fast charge: charge 1 minute, listen 1 hour.
★Wearable battery
High voltage(≥4.45V).
3C-10C fast charge.
★E-cigarette battery
High voltage(≥4.4V).
Fast charge.
Low self-discharge rate.
High voltage(≥4.4V).
Innovative structure.
Fast charge: charge 1 minute, listen 1 hour.
★Wearable battery
High voltage(≥4.45V).
3C-10C fast charge.
★E-cigarette battery
High voltage(≥4.4V).
Fast charge.
Low self-discharge rate.
Cylindrical Battery
★Ultrahigh rate technology
Ultrathin electrode.
CMT tab.
Lower impedance.
High porosity separator.
★High specific energy technology
High nickel.
High capacity material (Si).
Thick electrode.
Ultrathin electrode.
CMT tab.
Lower impedance.
High porosity separator.
★High specific energy technology
High nickel.
High capacity material (Si).
Thick electrode.
Cylindrical Battery
★Ultrahigh rate technology
Ultrathin electrode.
CMT tab.
Lower impedance.
High porosity separator.
★High specific energy technology
High nickel.
High capacity material (Si).
Thick electrode.
Ultrathin electrode.
CMT tab.
Lower impedance.
High porosity separator.
★High specific energy technology
High nickel.
High capacity material (Si).
Thick electrode.
Safety Technology
No thermal propagation technology
Safety Technology
No thermal propagation technology
Fast Charging Technology
ESD-charge technology
Fast Charging Technology
ESD-charge technology
High energy density
High voltage cathode technology
Nickel-rich cathode technology
Gradient porosity electrode
Composite anode
High energy density
High voltage cathode technology
Nickel-rich cathode technology
Gradient porosity electrode
Composite anode
π battery system
1) Applying efficient composite new materials and new adhesives;
2) The π battery system reduces weight by 10%;
3) The R&D sample can achieve an energy density of up to 260Wh/kg and supports 9-minute ultra fast charging.
2) The π battery system reduces weight by 10%;
3) The R&D sample can achieve an energy density of up to 260Wh/kg and supports 9-minute ultra fast charging.
π battery system
1) Applying efficient composite new materials and new adhesives;
2) The π battery system reduces weight by 10%;
3) The R&D sample can achieve an energy density of up to 260Wh/kg and supports 9-minute ultra fast charging.
2) The π battery system reduces weight by 10%;
3) The R&D sample can achieve an energy density of up to 260Wh/kg and supports 9-minute ultra fast charging.
Sodium ion battery
1) A large cylindrical sodium ion battery was designed based on layered oxide positive electrode and hard carbon negative electrode, with C40 aluminum shell as the carrier, with a specific energy of up to 135Wh/Kg;
2) Capacity retention rate can reach up to 90% at 10C;
3) Can still work normally at -40 ℃;
4) Cycle 2500 times with an 80% capacity retention rate.
2) Capacity retention rate can reach up to 90% at 10C;
3) Can still work normally at -40 ℃;
4) Cycle 2500 times with an 80% capacity retention rate.
Sodium ion battery
1) A large cylindrical sodium ion battery was designed based on layered oxide positive electrode and hard carbon negative electrode, with C40 aluminum shell as the carrier, with a specific energy of up to 135Wh/Kg;
2) Capacity retention rate can reach up to 90% at 10C;
3) Can still work normally at -40 ℃;
4) Cycle 2500 times with an 80% capacity retention rate.
2) Capacity retention rate can reach up to 90% at 10C;
3) Can still work normally at -40 ℃;
4) Cycle 2500 times with an 80% capacity retention rate.
Hydrogen energy technology
1) The alkaline anion membrane patent technology in cooperation with Wuhan University has broken through the previous monopoly of international proton exchange membrane patents;
2) We have taken the lead in the development of kW level alkaline membrane hydrogen production electrolysis cells in China. This electrolysis cell produces hydrogen with a current density of over 10000A/㎡ at a voltage of 1.8V, which is 2.5 times higher than the existing alkaline water electrolysis hydrogen production technology.
2) We have taken the lead in the development of kW level alkaline membrane hydrogen production electrolysis cells in China. This electrolysis cell produces hydrogen with a current density of over 10000A/㎡ at a voltage of 1.8V, which is 2.5 times higher than the existing alkaline water electrolysis hydrogen production technology.
Hydrogen energy technology
1) The alkaline anion membrane patent technology in cooperation with Wuhan University has broken through the previous monopoly of international proton exchange membrane patents;
2) We have taken the lead in the development of kW level alkaline membrane hydrogen production electrolysis cells in China. This electrolysis cell produces hydrogen with a current density of over 10000A/㎡ at a voltage of 1.8V, which is 2.5 times higher than the existing alkaline water electrolysis hydrogen production technology.
2) We have taken the lead in the development of kW level alkaline membrane hydrogen production electrolysis cells in China. This electrolysis cell produces hydrogen with a current density of over 10000A/㎡ at a voltage of 1.8V, which is 2.5 times higher than the existing alkaline water electrolysis hydrogen production technology.