The binary multi-carbon battery adopts a multi-carbon combined electrode layer structure with independent intellectual property rights.

The basic principle is double electric layer quadruple physical charge and discharge, which uses a double electric layer structure composed of activated carbon film porous electrodes and solid electrodes to obtain ultra-large energy storage capacity.

The multi-pole and multi-layer composite winding method is adopted to overcome the shortcomings of previous batteries, greatly improving the power density and energy density, forming a unique multi-carbon unit structure.

The materials and formulas have been adjusted through a large number of experiments to determine the optimal ratio, so that the technical performance of nanoscale carbon batteries can reach the best state and truly become a practical product that takes into account both performance and safety.


6 Key Technologies

  • Ultra Safe – Does not ignite or explode upon pressure, pinprick test, short circuit, increase in temperature, dropping, vibration tests.


  • Long-lasting life – can charge more than 10,000 times.


  • High specific energy – Highest power density up to 5000W/kg and highest energy density 350Wh/kg.


  • Fast charging and discharging – improve the fast charging and discharging ratio.


  • Withstand very low and high temperatures – working temperature from -40°C to 65°C.


  • Environmentally friendly – batteries do not contain any materials that are harmful to the environment and is recyclable.