Combining an Energy Cell and a Power Cell into One
EnPower cells outperform conventional power and energy cells on key metrics
Solving the Energy / Power Trade-off
Fast Charge
Thermal & Lifecycle Performance
Combining an Energy Cell and a Power Cell into One
EnPower cells outperform conventional power and energy cells on key metrics
Solving the Energy / Power Trade-off
Fast Charge
Thermal & Lifecycle Performance
Combining an Energy Cell and a Power Cell into One
EnPower cells outperform conventional power and energy cells on key metrics
Solving the Energy / Power Trade-off
Fast Charge
Thermal & Lifecycle Performance
Solving the Energy / Power Trade-off
Cells with high energy density (or specific energy) provide maximum range/flight time but cannot deliver high power or accept high currents for fast charging. Cells with high power density (or specific power) provide extraordinary acceleration performance, generate less heat, and are capable of fast charging, but suffer from low range/flight time.
EnPower’s engineered architectures address the physics underlying these fundamental trade-offs, delivering superior energy and power in the same battery cell.
Solving the Energy / Power Trade-off
Cells with high energy density (or specific energy) provide maximum range/flight time but cannot deliver high power or accept high currents for fast charging. Cells with high power density (or specific power) provide extraordinary acceleration performance, generate less heat, and are capable of fast charging, but suffer from low range/flight time.
EnPower’s engineered architectures address the physics underlying these fundamental trade-offs, delivering superior energy and power in the same battery cell.
Solving the Energy / Power Trade-off
Cells with high energy density (or specific energy) provide maximum range/flight time but cannot deliver high power or accept high currents for fast charging. Cells with high power density (or specific power) provide extraordinary acceleration performance, generate less heat, and are capable of fast charging, but suffer from low range/flight time.
EnPower’s engineered architectures address the physics underlying these fundamental trade-offs, delivering superior energy and power in the same battery cell.
Fast Charge
Repeated fast-charging of today’s lithium-ion cells causes unwanted aging behavior and rapid capacity fade.
EnPower’s engineered electrode architectures allow for extreme fast charging (XFC) while maximizing the battery’s cycle life.
Fast Charge
Repeated fast-charging of today’s lithium-ion cells causes unwanted aging behavior and rapid capacity fade.
EnPower’s engineered electrode architectures allow for extreme fast charging (XFC) while maximizing the battery’s cycle life.
Fast Charge
Repeated fast-charging of today’s lithium-ion cells causes unwanted aging behavior and rapid capacity fade.
EnPower’s engineered electrode architectures allow for extreme fast charging (XFC) while maximizing the battery’s cycle life.
Thermal & Lifecycle Performance
EnPower’s IP1 has been benchmarked against industry leading tab-less 21700 cells and outperformed in the areas of cycle life and temperature rise during high c-rate discharge.
EnPower’s IP1 temperature rise was >50% lower than a tab-less 21700 during a high c-rate discharge and offers >30% more cycle life.
Thermal & Lifecycle Performance
EnPower’s IP1 has been benchmarked against industry leading tab-less 21700 cells and outperformed in the areas of cycle life and temperature rise during high c-rate discharge.
EnPower’s IP1 temperature rise was >50% lower than a tab-less 21700 during a high c-rate discharge and offers >30% more cycle life.
Thermal & Lifecycle Performance
EnPower’s IP1 has been benchmarked against industry leading tab-less 21700 cells and outperformed in the areas of cycle life and temperature rise during high c-rate discharge.
EnPower’s IP1 temperature rise was >50% lower than a tab-less 21700 during a high c-rate discharge and offers >30% more cycle life.
Contact Us to Learn More
We are actively seeking partners to develop application-specific solutions.
Contact Us to Learn More
We are actively seeking partners to develop application-specific solutions.
Contact Us to Learn More
We are actively seeking partners to develop application-specific solutions.