Graphite molecular structure is also different between different materials
Graphite is an allotrope of elemental carbon. In the Graphite molecular structure, the periphery of each carbon atom is connected with another three carbon atoms (multiple hexagons arranged in a honeycomb pattern) to form a covalent bond. molecular. Because each carbon atom emits an electron, and those electrons are free to move, graphite is an electrical conductor. Graphite is divided into natural graphite and artificial graphite. Natural graphite ore is further divided into earthy graphite and flake graphite, of which flake graphite is a better natural graphite.
Artificial graphite refers to the graphite material obtained by further processing the carbon material classified as amorphous carbon, which improves the purity of carbon and further increases the proportion of Graphite molecular structure. Graphite materials, like carbon materials, can be made into industrial products such as electrodes and refractory materials. But because of its more excellent characteristics, it has applications in many high-end fields. For example, high temperature resistant lubricants, coating modification of battery materials, etc.
Carbon and graphite materials are non-metallic solid materials mainly composed of carbon elements, wherein carbon materials are materials substantially composed of non-graphitic carbon, and graphite materials are materials substantially composed of graphitic carbon. For the sake of simplicity, carbon and graphite materials are sometimes collectively referred to as carbon materials (or carbon materials).
The above is the explanation of the Graphite molecular structure of carbon materials and graphite materials, I hope it can help you.