The Neocarbonix™ process binds active material using highly thermally conductive nanocarbons that support faster, more uniform drying in both electrode and cell manufacturing, greater solvent flexibility, and faster throughput. The process improves performance at each of the most expensive and longest steps in the battery manufacturing process, electrode coating and drying and moisture removal.

The Neocarbonix™ process creates an advanced 3-D nanoscopic carbon binding structure which allows loading with almost 100% active material, and supports thick electrodes for increased energy density.

The Neocarbonix™ process is highly scalable and is compatible with industry standard roll-to-roll electrode processes for easy implementation in most manufacturing environments.

The Neocarbonix™ process eliminates the need for polymer binders, allowing for a higher range of operation on the cell level and improving performance in high temperatures. The Neocarbonix™ process improves ion mobility within the electrode's active material to enhance performance at low temperatures.

Li-ion batteries utilizing Neocarbonix™ technology have lower ESR, resulting in high battery efficiency even at high current rates. This leads to less dissipated heat and decreased burden on thermal management systems.

The Neocarbonix™ process results in electrodes with 10-100x more electrically conductive active material layers, resulting in higher C-rates and power density.  The Neocarbonix™ process can be adapted to any desired electrode thickness, including thin electrodes highly loaded with active material and suitable for very high power applications.

The Neocarbonix™ process results in electrodes with high mechanical flexibility and electrical conductivity during charge/discharge cycles, allowing a much longer lifecycle before replacement.