GNR Electrically Conductive Graphene Nano Strips (Based on Nano-Microelectronics PhD) PhD Teaching_Research 

Researcher  and author: Dr.   (   Afshin Rashid)



Note: The motion of nanoelectrons in  electrochemically  modified  graphene nanoparticles is the result of carbon nanotubes CNTs and  graphene nanoparticles  Nano-electron conductivity was measured in a sample of  graphene nano-strips  at about 2400 ± 200 m / s  Carbon nanotubes CNTs in combination with  low percentage graphene nanofibers  form an electrical permeability threshold. 
Also,  graphene and graphene modified values are the same or even less of the  carbon nanotubes, the network of conductive and transfer nano-electron have  , the eve of the more phonetic wide range of composition of  nano strips of graphene  varies,  nano bar graphene  Electrical Conductors In the structure of multilayer and monolayer nanotubes,  they show signs of electronic conductivity  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 nano-strips .



Graphene is a nanoparticle with a two-dimensional structure of carbon atoms that has unique electrical and mechanical properties. Using it as a filler in very small quantities significantly enhances the  properties of nanoparticles. There are various methods for producing nanoparticles from graphene-reinforced particles, which affect the amount of dispersion of graphene nanoparticles in the substrate and the final properties of the nanoparticles. Structure, methods of production and transfer of  properties of amplified nano-electrons from graphene nano-strips in various fields, including transparent and conductive electrodes for use in  solar nanocells, nano-sensors, and field-effect nano-transistors. .



Conclusion : 

The motion of nanoelectrons in  electrochemically  modified  graphene nano-strips is the result of carbon nanotubes CNTs and  graphene nano-strips  Nano-electron conductivity was measured in a sample of  graphene nano-strips  at about 2400 ± 200 m / s  Carbon nanotubes CNTs in combination with  low percentage graphene nanofibers  form an electrical permeability threshold. 

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics