Performance (Bucky tubes and fullerenes C60 and C70) and diamonds in the manufacture of nano-electronic devices (based on nano-micro-electronics PHD) (educational-research doctorate)
Researcher and author: PhD student : Afshin Rashid
Note: The first fullerene discovered was Bucky Ball; the most common properties of fullerenes are related to these two types, C70 and C60 .
Fleurins are nanometer-sized molecules that, in their simplest form, form 60 carbon atoms of a graphite layer with a three-dimensional, curved structure. 60 Unlike diamonds and graphite, whose molecules are continuous, fullerenes have closed molecules: they are like C60 and so on. (60 fullerenes), also known as bacilli and bacilli tubes, include nanotubes, nanofibers, and fluorine has a graphite-like structure, but instead of fully hexagonal sections, carbon atoms are also located at the vertices of the 5 (or 7) sides.
There are two types of connections in the structure of diamond nanoparticles:
1. Covalent bonding, the bond that exists between the carbon atoms of each layer of the honeycomb.
2_ It is the connection that connects the beehives to each other.
Nano graphite has a high strength for honeycomb plates due to its strong covalent bond; on the contrary, this structure has much less strength perpendicular to the honeycomb plates. The structure of diamond nano graphite has a network structure. In nano graphite, atomic bonds are formed only at the surface, while in the diamond structure, these bonds fill the space in a three-dimensional network. In Heratum graphite, carbon bonds with three other carbon atoms to form a covalent bond, while in heratum diamond, carbon bonds with four other carbon atoms to form a covalent bond.
There are two types of connections in the structure of diamond nanoparticles:
1. Covalent bonding, the bond that exists between the carbon atoms of each layer of the honeycomb.
2_ It is the connection that connects the beehives to each other.
Nano graphite has a high strength for honeycomb plates due to its strong covalent bond; on the contrary, this structure has much less strength perpendicular to the honeycomb plates. The structure of diamond nano graphite has a network structure. In nano graphite, atomic bonds are formed only at the surface, while in the diamond structure, these bonds fill the space in a three-dimensional network. In Heratum graphite, carbon bonds with three other carbon atoms to form a covalent bond, while in heratum diamond, carbon bonds with four other carbon atoms to form a covalent bond.
Conclusion :
Nano graphite and graphene nanofibers are due to the scattering of the P-conductor of electricity. Nano diamond Active particles with such special properties, especially electronic ones, can be the founder of all new types of powerful nano-electronic devices.