Qeios 3 (
2024)
Copy
BIBTEX
Abstract
Nano fullerenes with the ability to store electrostatic energy that can be used as nano
supercapacitors with very high capacity. Also, with these nanotubes, the nervous network can
be repaired. Carbon nano fullerenes are allotropes of carbon such as diamond and graphite. These
compounds are made of carbon and take on spherical and elliptical shapes. Those that are spherical are
called buckyballs.Fullerenes do not have much chemical activity. The width of the graphite plate is about a few nanometers. The length of the nanotubes ranges from a few micrometers to less than a meter. Their unique molecular structure
creates unusual macroscopic properties. Nano supercapacitor can store 100 times more energy than previous devices of its kind. Finally, such devices can store waves of energy from renewable sources such as wind and deliver that energy to the power grid when needed. In general, nanoelectric supercapacitors can store large amounts of energy, but they tend to charge slowly and wear out quickly. Meanwhile, capacitors have a longer life and can be discharged quickly, but store
much less total energy. In order to make nano supercapacitors, nanostructured arrays of electrostatic capacitors can be created.Electrostatic nanocapacitors are the simplest type of electronic energy storage device. They store electrical charge on the surface of two metal electrodes separated by an insulating material. The electrical storage capacity of the nano supercapacitor is directly proportional to the surface area of these sandwich-like electrodes