Part of The Process (Discharging) for Electric Nanotubes Electrically Conductive Graphene Nanoribbons and Mutation of Multi-layered and Single-layered Nanotubes
Afshin Rashid
Abstract
Note: Electrically conductive graphene nanostrips in the structure of multi-layer and single-layer nanotubes show signs of ballistic transport . Although the electrical conductivity of graphene obtained by electrochemical methods is not as good as that of perfect graphene, it is still a suitable option for the production of electrically conductive graphene nanoribbons .SWCNTs inside the carbon nanotubes are mixed with graphene conductive fillers to obtain conductive materials that are light in weight and have a minimum electrical resistance of less than 105 m/Ω. These graphene nanoribbons show a non-linear increase in the amount of electrical conductivity that this increase is a function of the amount of the reinforcing phase. At a certain value of the nanoparticle, which is known as the permeability threshold, the nanoparticle has the ability to form a network structure. This causes a sudden increase in electrical conductivity of graphene nanoribbons inside CNTs carbon nanotubes.