Why expanded graphite can be used to make batteries

Expanded graphite is processed from natural flake graphite, which inherits the high-quality physical and chemical properties of flake graphite, and also has many characteristics and physical conditions that flake graphite does not have. Expanded graphite has excellent electrical conductivity and is widely used in the production of electrode materials, and is an excellent fuel cell material. The following Furuite graphite editor will analyze why expanded graphite can be used to make batteries:
In recent years, research on expanded graphite as a fuel cell material has become a hot topic in global research. As a battery material, it uses the characteristics of the free energy of the interlayer reaction of expanded graphite to convert into electrical energy, usually with expanded graphite as the cathode and lithium or zinc as the anode. In addition, the addition of expanded graphite to the zinc-manganese battery can enhance the conductivity of the electrode and the electrolyte, and provide excellent molding properties, inhibit the dissolution and deformation of the anode, and extend the service life of the battery.
Carbon materials are often used as electrode materials due to their excellent electrical conductivity. As a new type of nano-scale carbon material, expanded graphite has the characteristics of loose and porous, large specific surface area and high surface activity. It not only has excellent conductivity and adsorption, but also has excellent chemical stability, so it is widely used in electrode materials.
Furuite Graphite is mainly engaged in high-end graphite products. There are many varieties and specifications of expanded graphite. The specific specifications can be customized according to customer requirements. Samples can be mailed. If you are interested, please contact us.