Fullerene nanofoleners for current resistance in nano-transistors,

Fullerene  nanofoleners for current resistance in nano-transistors, organic nano-photovoltaics, nano-superconductors and nano-sensors (nano-sensors) (PhD in nano-microelectronics)  

Researcher  and author: Dr.   (   Afshin Rashid)

Note: Fullerene is the third form of carbon with graphite and diamond, which has unique properties and makes it resistant to current in nanotransistors, organic nano-photovoltaics, nano-superconductors and nano-sensors (nano-sensors). 

The unique properties of fluorescents enable a wide range of applications from nanoelectronics to medicine.  Fullerenes  can act as superconductors through semiconductors and are exceptional radical transmitters  . Intense durability, the feature  can easily be used in current transfer properties as a modification derivative, and this has changed their electronic structure, solubility and physical properties (structure).

Structure and structure (fullerenes) in nature contain 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 the regular hexagons in graphite plates, there is a series of regular hexagons and pentagons that are placed side by side. And form fullerene butter. The placement of these pentagons and hexagons is essential to form a spherical structure. In fact, without the presence of pentagons in the graphene structure, spherical structures cannot be obtained from the graphene plates.

Conclusion: 

The first fullerene to be discovered was buckyball;   The most common properties of fullerenes are C70 and C60 .

Researcher  and author: Dr.   (   Afshin Rashid)

PhD in Nano-Microelectronics