The application of graphene nano-ribbons in nano-interfering electromagnetic shielding materials and Nano-electrostatic discharge in nano-electronic devices has expanded to Rectenna Nano-antennas and Nano-supercapacitors

On the other hand, due to the unique properties of graphene, including nano-electrical , nano-electrochemical properties and high specific surface area, the ability to use this material in many applications such as sensors, nano-transistors, energy storage sources and all kinds of nano-devices Microelectronics has grown dramatically.  Graphene has  significant nanoelectronic properties, including; high Young's modulus; High fracture strength  , excellent nanoelectrical conductivity, fast movement of (nanobars)  . There is a simple electrostatic interaction between graphene nanoparticles in a solution, graphene nanoparticles  like semiconductors, nanotransistors.

In terms of building blocks, graphene is fundamentally different from other two-dimensional or three-dimensional graphite materials and other geometric forms of carbon, such as zero-dimensional spherical fullerene. Graphene is made of one layer with one-dimensional carbon nanotubes  from a hexagonal ring, which can be proposed as a supermolecule of  aromatic planar conjugation. The planar structure of graphene has created an excellent ability to use this material in the field of  transfer and  electrostatic interaction in nano-electrical devices.

The application of graphene nano-ribbons in nano-interfering electromagnetic shielding materials and nano-electrostatic discharge  in nano-electronic devices has expanded to Rectenna nano-antennas and nano-supercapacitors. The effectiveness of graphene particles in electromagnetic interference shielding and enhanced with modified graphene nanoribbons is measured.  One of the important and new structures of carbon nanostructures is graphene. Graphene is a sheet of carbon atoms. Graphene is the newest member of the large carbon family. The term graphene was used to describe a single nano layer of graphite. This nano material  has high transparency due to its small thickness. Also, its conductivity has caused it to  attract a lot of attention. It is very difficult to control the conditions to separate a single layer of graphene, usually the  prepared material called graphene consists of a set of several layers of graphene  , each of which contains a different number of sheets.