The comparative high degree of conductivity comes from their very high crystallinity. This allows manufacturers to achieve the same level of conductivity with a lower loading, enabling a higher degree of flexibility when it comes to anode design and cathode material mix. The structure also gives the battery a high charge acceptance and cycling stability, making it both easier to charge the battery itself and slower to decrease the charge loss with each consecutive recharge.

Due to its high electrode density and low spring back, the electrode will not rebound or expand when compressed. This allows manufacturers to design more compact batteries and optimize space. This compressibility enables improved mechanical stability, leading to improved battery safety and longevity.

The efficient wettability of C-NERGY L-series graphites makes them easily dispersible within the electrode slurry, resulting in improved battery performance because of efficient anode wetting by the electrode.

Key benefits:

- Enables the utilization of more economical active materials in the electrodes

- Enables reduced electrochemical inactive components dosage in the negative electrode

- Reduction of global additives cost

- No additional pre-dispersing unit is required

- No need for a dispersing agent

- Faster electrolyte absorption

- Higher production output

- Improved safety and lower rejection rate