Fullerines with electrostatic energy storage that can be used as high-capacity capacitive nano- supercars (PhD in Nano-Microelectronics)
Researcher and author: Dr. ( Afshin Rashid)
Note: Nano fullerenes with electrostatic energy storage capability that can be used as capacitive nano-capacitors with very high capacity. Also, with these nanotubes, the neural network can be repaired. Carbon nanofoils are allotropes of carbon such as diamond and graphite. These compounds are made of carbon that take on spherical, elliptical shapes. Those that are spherical are called buckyballs.
Fullerenes do not have much chemical activity. Graphite plate width is about a few nanometers. The length of nanotubes is in the range of a few micrometers to less than one meter. Their unique molecular structure creates unusual macroscopic properties.
Non-carbon nanofoils
In non-carbon fullerenes, other elements form a structure similar to fullerenes. The chemical structure of these fullerenes is often metal oxide, of which vanadium oxide is an example.
Intracranial fullerenes
Enclosing different atoms, the resulting nanostructures are used for applications such as tracking biological elements and processes.
Multilayer fullerenes
Multilayer fullerenes consist of several fullerenes that are located inside each other. For this reason, this structure is also called nano-onion .
Fullerenes are sensitive to light, and their electrical properties change dramatically as the wavelength of light changes. Such as: Organic light emitting diodes with long life and high performance and inside the molecules of fullerenes can be filled with other elements. For example, by placing some metal elements inside fullerenes, their electrical properties can be improved. The fluorine molecule can also be used for storage in nano-supercapacitors and trapped non-carbon atoms .
Conclusion :
Carbon nanotubes are referred to as elongated fullerenes. Graphene sheets are used to empower carbon nanotubes. Nano-fullerenes with electrostatic energy storage capability that can be used as high-capacity capacitive nano-clouds.
Researcher and author: Dr. ( Afshin Rashid)
PhD in Nano-Microelectronics