CENS Nanotechnology uses carbon nanotubes (CNTs), a nano material well-known to have super conductive properties, to substantially boost energy density and cycle performance in rechargeable Li-ion batteries.
CENS’ unique CNT dispersion technology produces a 3D CNT network that serves as an efficient conduit for accelerated transport of Li-Ion between the cathode and anode layers. Utilizing the special CNT structure, CENS Nanotechnology disperses CNT on cathode and anode particles with unmatched efficiency.
Far outstripping the capabilities of other CNT dispersion technologies, CENS Nanotechnology boosts the Li-Ion battery internal process with an unprecedented low CNT weight load of just 0.2%-0.6%. This reduces costs and further improves the sustainability of Li-ion power cells.
Driving fast-charging and high-power Li-Ion battery applications
CN Booster brings unmatched high-capacity, high-power and long-life capabilities to Li-ion batteries. A breakthrough product, it accelerates Li-ion mobility within any lithium-ion battery, enabling significantly increased battery capacity, especially under fast rates. CN Booster enables faster charging and with no impact on battery capacity.
Taking Li-Ion battery capacity higher than ever before
Xtend is a breakthrough product that boosts initial battery capacity under a wide range of cycling rates, while preserving battery integrity and safety.
CNT-based and featuring a high internal capacity, Xtend is added to graphite anode to enhance anode capacity. Its unique carbon structure enables smooth blending with graphite. The highly developed surface area of Xtend significantly increases anode capacity with a very low CNT weight load of < 1.0%. Extremely stable, similar to graphite, the material parameters of Xtend do not hinder anode function during the cycling process.
CENS products are implemented as a single, plug-in device. Manufacturers of battery cells can seamlessly integrate CENS into the production line without changing their manufacturing process. With little effort or cost, manufacturers can dramatically increase the cost-effectiveness, efficiency and capabilities of their Li-ion products.