Battery Applications
Nano-C SWCNT Battery Additives | Highly Conductive Solutions for Next-Generation Energy Storage
Even the most promising next generation battery chemistries create challenges and drawbacks which require new material solutions to realize the promise of higher performance.
Nano-C SWCNTs based conductive additives significantly enhance energy density, power density, and cycle life.
Mechanical Reinforcement: High tensile strength and flexibility promote mechanical stability during cycling which extends long term reliability.
Electrical Conductivity:The highly conductive characteristics enhance electron transport within the electrodes enabling faster charge and discharge.
Thermal Stability:Effective heat dissipation is crucial for battery safety and performance. SWCNT thermal conductivity improves thermal management thereby prolonging battery life.
Safety: Facilitates better ion diffusion, reducing the formation of dendrites and other issues that can lead to degradation.
Conductivity at the Molecular Level. Performance at Scale.
Nano-C's highly conductive SWCNT additives are available today at commercial scale, engineered for the battery applications pushing energy storage forward.