At International Battery Company, we engineer advanced lithium-ion cells designed for performance, longevity, adaptability, and scale. Across prismatic, cylindrical, and pouch form factors, our solutions power electric mobility, energy storage systems, industrial applications, and the next generation of AI-driven infrastructure.
Built to Fit. Powered to Perform.
Optimized for space efficiency with rectangular form factor, ideal for electric vehicles and energy storage systems.
Cathode: Mid-Nickel (Mid-Ni)
Anode: Graphite
Capacity: 50 Ah
Energy Density: > 210 Wh/kg
Cycle Life: > 4800 cycles
Mobility, ESS, and Data Centers
Cathode: Lithium Iron Phosphate
Anode: Graphite
Capacity: 45 Ah
Energy Density: > 140 Wh/kg
Cycle Life: > 8,000 cycles
Golf Carts, Residential, C&I, Data Centers
Cathode: High-Nickel (High-Ni)
Anode: Silicon (SiC)
Capacity: >70 Ah
Energy Density: > 300 Wh/kg
Cycle Life: > 1,200 cycles
Drones, eVTOL, AI Data Center, Space and Humanoids
Cells That Adapt to Real-World Needs
Cylindrical cells designed to meet diverse power demands, from rugged reliability to lightweight flexibility.
Cathode: NMC
Anode: Graphite
Voltage: 3.6 V
Capacity: 4500 mAh
Cycle Life: N80>1200 cycles
Electric mobility and new energy applciations with high cycle life.
Cathode: NMC
Anode: Graphite
Voltage: 3.6 V
Capacity: 5000 mAh
Cycle Life: N80>1000 cycles
Electric mobility and new energy applciations Humanoid, Defense, ATV, Golf carts, Industrials.
Cathode: High Ni
Anode: Graphite
Voltage: 3.6 V
Capacity: 5800 mAh
Cycle Life: > 1000 cycles
Electric mobility and new energy applciations Humanoid, Defense, ATV, Golf carts, Industrials.
Looking to develop a Custom Battery Cell (Prismatic, Cylindrical, Pouch) tailored to your application? Get in touch with us to design a custom solution that fits your needs.
Detect defects early and maximize yield with real-time visibility into critical production processes — connecting factory data to end-of-life and field performance in a single, intelligent feedback loop.
Deliver precise State of Charge, Health, and Power (SoC, SoH, SoP) insights across real-world conditions — powered by physics-informed AI that adapts as batteries age.
Stay ahead of failures by predicting Remaining Useful Life and identifying warranty risks early, turning production and test data into actionable insights for long-term performance and cost optimization.
