- Section  (endohistal nano-fullers) 

Investigation of four isomers of fullerene C 96 , the highest  void (endohistial nanofullers)  in electrical carbon nanotubes CNT and CNTS

Researcher  and author: Dr.   (   Afshin Rashid)



Note: The four isomers of C  96  are the highest hollow fullerenes found in the membrane of CNT and CNTs carbon nanotubes.  The parts of  C  96  , which are separated from fullerene carbon black by recycling, have an increase in efficiency to the nano-electronic properties of  CNT and CNTS carbon nanotubes .  Fullerene together with graphene is one of the nanoparticles that make up carbon nanotubes.

Fullerenes are identified according to the number of atoms in their structure. A letter C is used to name fullerenes, which represents the carbon atom in their structure. After the letter C, the number of carbon atoms in the fullerene spherical lattice unit is mentioned. For example, C96 molecule has 96 carbon atoms. The number of atoms in fullerenes produced so far ranges from 28 to hundreds of carbon atoms.


Buckyball (C96) and fullerenes are among the materials on which many nanomaterials are based. unique structural and electronic properties, as well as their application in various fields such as electronic applications such as making nano electrodes used in special electrical circuits, nano photonics in nano solar cells and nano absorbers of special wavelengths .

One of the most important and unique properties of fullerene C96 is their ability to keep atoms or small molecules inside the carbon cage.  C96 fullerenes can behave as superconductors through semiconductors and are exceptional radical transporters. Extreme durability, the property  can easily be used in current transfer properties as a modified derivative, and this has caused changes in their electronic structure, solubility and physical properties (structure).

Conclusion :

Four isomers of C  96  are the highest hollow fullerenes found in CNT and CNTs carbon nanotube membranes.  The parts of  C  96  , which are separated from fullerene carbon black by recycling, have an increase in efficiency to the nano-electronic properties of  CNT and CNTS carbon nanotubes .  Fullerene together with graphene is one of the nanoparticles that make up carbon nanotubes.

  • Researcher  and author: Dr.   (   Afshin Rashid)
  • Specialized doctorate in nano-microelectronics