Nano fullerene c 320

Nano  fullerene c 320 

Researcher   and author: Dr.   (  Afshin Rashid)

Note: There is an importance of using computational methods in exploration of different sizes of fullerene C320 and their isomers. 

Fullerenes are nanometer-sized molecules that, in their simplest form, form 320 carbon atoms of a graphite layer with a three-dimensional structure  . 320 Unlike diamonds and graphite, whose molecules are continuous, fullerenes have a closed molecule: they are like c320 and so on. (320 fullerenes) Also known as buccal and buccal tubules, including nanotubes, nanofibers, fullerenes have a graphite-like structure, but instead of completely hexagonal sections, carbon atoms are also located at the vertices of the 5 (or  7) polygons.

An important feature of all nanostructures is that the number of surface atoms in them is greater than the number of volume atoms. This ratio increases with decreasing nanoparticle size. Therefore, the size of the nanoparticle is an important feature. The range of change in nanoparticle activity depends on the nature and shape of the nanostructure. With  However, if the energy field of nano-particles with energy exposure to electro-magnetic analogy, and if within a certain  wavelength, the occurrence of chemical reactions in materials under irradiation dramatic changes the activity of nanoparticles  in the size of 100nm will be dramatic. Nanoparticle surface atoms are not energy compensated. In general, the growth results of nanoparticle energy  can be expressed as the total energy of the surface atoms of the particle. Freedom of movement of surface atoms of nanostructures It is limited and only vibrational movements and the movement of electrons are possible. These two electro-kinetic reactions are  interdependent because the displacement of the electron clouds of atoms inevitably changes the vibrational frequencies of the nanoparticle atom bonds  . On the other hand, the displacement of capacitance electrons in bonds changes the polarity of bonds and bodies called supermolecules  . In this case, electron transfer to a higher energy level is possible.

Conclusion :

Fullerenes are nanometer-sized molecules that, in their simplest form, form 320 carbon atoms of a graphite layer with a three-dimensional structure  . 320 Unlike diamonds and graphite, whose molecules are continuous, fullerenes have a closed molecule: they are like c320 and so on. 

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics