- Section  (endohistal nano-fullers) 

Investigation of electrical properties ( C 540 endohistal nano-fullers)   

Researcher   and author: Dr.   (  Afshin Rashid)

The unique properties of  (C 540 endohistal nanofullerenes  )  enable a wide range of applications from nanoelectronics to medicine.  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).


Structure and structure  (C 540 endohistal nanofullers   in nature has five allotropes of diamond, graphite, nanotube, amorphous carbon and fullerene, all of which are solid.  The base of fullerenes is the plates in graphite, with the difference that in the atomic structure of fullerenes, instead of regular hexagons in graphite plates, there is a series of regular hexagons and pentagons, which are placed side by side. have taken and   formed spheres ( C 540 endohistal nano-fullers ). Buckyball (C540) 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 . 

(C 540 endohistal nanofullers  )  is a type of fullerene molecule that consists of 540 carbon atoms.  C 540 Fullerenes are closed hollow cages made of carbon atoms interconnected in pentagonal and hexagonal rings with a cage-like fused ring structure that resembles a rugby ball.  Each carbon atom on the surface of the cage is bonded to three neighboring carbons, and its sp2 bonds combine with one carbon atom at the vertices of each polygon and one bond along each polygon edge.

(Endohistal C 540 nanofullers  ) in the spectrum of molecules can easily accept and donate electrons in a wide range of chemical reactions (Roman under pressure)  . 

Conclusion :

The unique properties of  (C 540 endohistal nanofullerenes  )  enable a wide range of applications from nanoelectronics to medicine.  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).

Researcher  and author: Dr.   (   Afshin Rashid)

Specialized doctorate in nano-microelectronics