Behind every powerful battery is a carefully engineered ecosystem of materials. These materials have been implemented and validated within our cell design and are qualified through production at our 50MW facility in Korea. In addition, IBC continuously works with new materials to qualify them for Li-ion cells, including required certifications and field testing.
The anode is where energy begins its journey. We work with high-purity graphite, Silicon carbide (SiC) and advanced anode solutions engineered for stability, fast charge performance, and extended cycle life—ensuring reliability across demanding applications.
Optimized particle morphology, crystal structure, and surface coatings improve thermal stability, cycle life, and rate capability. As a result, cathode materials are essential for delivering high energy, long-term durability, and safe performance across mobility, industrial, and energy storage applications.
Where safety meets endurance.High-grade fluoropolymers provide chemical resistance, thermal stability, and structural integrity—supporting safe operation even under extreme conditions.
Small particles. Big impact.Specialty carbon blacks enhance electrical conductivity and uniform energy flow within the cell—improving efficiency, consistency, and overall performance at scale.
Precision matters at every layer.From separators to current collectors and functional components, we ensure each element meets strict quality and compatibility standards—because performance is built from the inside out.
Every lithium-ion cell begins with a precisely coated anode. Uniformity and process control ensure efficient performance, durability, and long-term reliability.
The cathode powers the cell—precision-coated to deliver energy, strength, and safe, reliable performance.
The anode and cathode are layered with a separator and wound into a compact “jelly roll,” enabling smooth energy flow, safety, and consistent performance—the core of every lithium-ion cell.
