Electrically conductive graphene nano-tapes and mutations of multilayer and monolayer nanotubes (PhD in nano-microelectronics)
Researcher and author: Dr. ( Afshin Rashid)
Note: Electrically conductive graphene nano-strips in the structure of multilayer and monolayer nanotubes show signs of transport ballistic . Although the electrical conductivity of graphene improved by electrochemical methods is not as perfect as that of graphene, it is still a viable option for the production of electrically conductive graphene nanofibers .
Inside the carbon nanotubes, SWCNTs are mixed with graphene electrically conductive fillers to obtain electrically conductive materials that are lightweight and have a minimum electrical resistance of less than 105 m / Ω. These graphene nanoparticles show a nonlinear increase in the amount of electrical conductivity, which is a function of the amount of amplifier phase. At a certain amount of nanoparticles, known as the permeability threshold, the nanoparticle is able to form a lattice structure. This causes a sudden increase in the electrical conductivity of graphene nano- strips within the carbon nanotubes of CNTs. Intrinsic conductivity and length-to-width ratio of carbon-based filler nanoparticles make them selective Suitable for achieving this permeability threshold in small amounts of the filler phase forms graphene nano-strips within CNTs nanotubes. Pages graphene perfect starting signs of transmission (transport ballistic) to show. Although the electrical conductivity of graphene modified by electrochemical methods is not as perfect as that of graphene, it is still a viable option for the production of electrically conductive graphene nano-strips .
Conclusion :
Researcher and author: Dr. ( Afshin Rashid)
PhD in Nano-Microelectronics