optimized performance where
it was previously impossible
optimized performance where it was previously impossible
proprietary cathode nano-structure
LnFP’s reinforced spherical cathode particles create optimized pathways for Li-ion transfer between cathode and anode — maximizing active surface area, minimizing ion diffusion distances, and enabling electrochemical stability at charge rates that degrade conventional chemistries.
3 MINUTES
CHARGING CAPABILITY
LnFP’s proprietary cathode nano-structure reduces impedance and optimizes Li-ion transport kinetics — enabling up to 20C charging. Validated at large-scale production levels: full charge in 3 minutes. Most commercial cathode chemistries degrade rapidly above 3–5C. LnFP maintains capacity and stability through 20C.
Extended
Cycle Life
Extended Cycle Life
3,000–4,000 charge cycles — up to twice the cycle life of NMC (1,000–2,000 cycles). LnFP’s reinforced particle structure minimizes electrode degradation during charge and discharge, lowering total cost of ownership for battery manufacturers and their end customers.
LnFP PERFORMANCE
At charge rates of 5C and higher, LnFP demonstrates superior electrochemical stability and sustained performance — where traditional cathode chemistries begin to fail.
Reducing
Dependence on Ni/Co
LnFP is built on abundant iron and manganese — eliminating the cost volatility, supply chain exposure, and ESG risk associated with nickel and cobalt. Cobalt-free by design. Lower pack cost potential. Simpler recyclability profile.
HIGH-LEVEL SAFETY
The intrinsic chemical stability of LnFP chemistry, combined with the robustness of our spherical nanostructure, results in an inherently safer battery. It offers superior tolerance to overheating and physical abuse, redefining safety standards for high-density energy storage.
LnFP VS. NMC: WHY CHOOSE LnFP?
Thermal Safety
Cycle Life
Ni/Co Dependence
Pack Cost
NMC Standard
- Typically ≤5C
- ~150°C thermal runaway
- 1,000–2,000 cycles
- High — cobalt & nickel exposure
- Higher pack cost
LnFP Technology
- Up to 20C — full charge in 3 min
Superior
- ~230°C thermal runaway
Superior
- 3,000–4,000 cycles
Superior
- None — Fe/Mn abundant materials
Superior
- Lower pack cost potential
Superior
Industry Sectors
Real-World Applications
One chemistry. Four trillion-dollar markets.
Electric Vehicles (EVs):
LnFP’s ultra-fast charging capability and 3,000–4,000 cycle life make it the cathode material for EV manufacturers competing on charge time and total cost of ownership — without cobalt or nickel exposure.
Energy Storage Systems (ESS):
Grid-scale storage demands long cycle life, stable material costs, and zero thermal risk at scale. LnFP delivers on all three — purpose-built for BESS deployments that run for decades.
AI Data Centers:
AI infrastructure requires high-power energy storage with minimal thermal risk and maximum uptime. LnFP’s thermal runaway threshold of ~230°C and fast discharge capability make it the safe, reliable choice for data center backup and UPS systems.
Industrial Electrification:
From forklifts to aerospace platforms, industrial applications demand batteries that perform across extreme temperatures and resist mechanical stress over years of heavy use. LnFP operates from -20°C to 60°C — with no fire after nail penetration.
AEROSPACE:
Powering the future of flight. From advanced drones to next-gen electric aircraft, our technology ensures unmatched energy efficiency and reliability. Experience longer flight times, faster charging, and sustainable performance.
Electric Vehicles (EVs):
LnFP’s ultra-fast charging capability and 3,000–4,000 cycle life make it the cathode material for EV manufacturers competing on charge time and total cost of ownership — without cobalt or nickel exposure.
Energy Storage Systems (ESS):
Grid-scale storage demands long cycle life, stable material costs, and zero thermal risk at scale. LnFP delivers on all three — purpose-built for BESS deployments that run for decades.
AI Data Centers:
AI infrastructure requires high-power energy storage with minimal thermal risk and maximum uptime. LnFP’s thermal runaway threshold of ~230°C and fast discharge capability make it the safe, reliable choice for data center backup and UPS systems.
Industrial Electrification:
From forklifts to aerospace platforms, industrial applications demand batteries that perform across extreme temperatures and resist mechanical stress over years of heavy use. LnFP operates from -20°C to 60°C — with no fire after nail penetration.
AEROSPACE:
Powering the future of flight. From advanced drones to next-gen electric aircraft, our technology ensures unmatched energy efficiency and reliability. Experience longer flight times, faster charging, and sustainable performance.
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