1.Lithium battery

The development of conductive materials is one of the elements in the development of new energy. Carbon nanotubes can be used to improve the electrical conductivity of electrode materials, and the improvement of the conductivity of electrode materials (anode and cathode) is important for improving energy storage performance. Carbon nanotubes have very good electrical conductivity, and at the same time have a very high aspect ratio. Adding carbon nanotubes to the electrode material can effectively from a conductive network to enhance the conductivity of the electrode and store more electricity. At the same time, the use of graphene addition can form a more efficient conductive network composite, which is applied to high energy density batteries for consumer products, EV batteries with long life requirements, energy storage with capacity and capacity density, power battery, ultra high/low temperature performance, etc. .

2.Ultra capacitor

Carbon nanotubes and graphene have a large specific surface area and good electrical conductivity. When applied to the activated carbon in the electrode of the capacitor, it is beneficial to charge storage, increase the capacitance of the capacitor, and reduce the internal resistance of the capacitor. And because of the better electrical conductivity, the power output increases, providing a high power current requirement.

3.Lead-acid batteries

Adding carbon nanotubes and graphene to the negative electrode of the lead-acid battery can improve the conductivity of the plate, improve the consistency of the lead-acid battery, and increase the battery cycle performance. Moreover, by adding carbon nanotubes and graphene, the charge and discharge depth of the lead-acid battery can be appropriately increased, and the energy improvement is improved.

4.Antistatic plastic / conductive plastic

Only a small amount of carbon nanotubes can be added to meet the requirements of the original antistatic plastic. The influence on the original plastic properties is small, resulting in a decrease in the strength properties of the plastic. When the carbon nanotubes or graphene are appropriately added, the strength of the plastic can be improved.