Blografi

Supercapacitors are formed by pairs of conductive plates separated by a dielectric medium. Its operation is very similar to that of a large-scale capacitor. However, the name of the supercapacitor indicates its greater capacity, thousands of times greater than the capacity of high capacity electrolytic capacitors, being able to charge and discharge in very short periods. Graphene has a lot of potential in the construction of Supercapacitors, therefore this article aims to discuss the role …

The paint industry has also taken full advantage of nanotechnology and has incorporated it to build more efficient, durable, anti-corrosive, adhesive, and super flexible paints. With the help of nanomaterials, the paints with anticorrosive, insect’s killer, self-cleaning effects have come into existence. Therefore, this article aims to discuss such paints and their role in detail. Background The anticorrosive protection by means of organic coatings (anticorrosive paints) acts by diffe …

Carbon nanotubes (CNT) are the allotropes of carbon having a cylindrical nanostructure. Carbon nanotubes have two main types: Single wall Nanotubes (SWNT) and Multiwall carbon nanotube (MWNT). CNTs have extraordinary mechanical and electrical properties and thermal conductivity. Carbon Nanotubes have many other extraordinary properties also, due to which they are of great importance in sectors such as electronics, nanotechnology, optics, and many other sectors. Therefore, this article …

It’s not easy to learn wonder material graphene in mere minutes. However, you can extend your horizon on graphene’s history, properties, and application. See how fullerenes, nanotubes, and graphene had an impact on practical science. Overview Find out more about Graphene in this comprehensive post: The Ultimate Guide to GrapheneGraphene is a rigid two-dimensional (2D) monolayer allotrope of carbon shaped like a hexagonal lattice with a thickness of as much as one carbon and a regular car …

Graphene, once called tomorrow’s material, extended into so many areas that its future-like applications in material science such as Graphene Field Effect Transistors (GFETs) puts everything from biology to biosensing into a height.Find out more about Graphene in this comprehensive post: The Ultimate Guide to Graphene1. OverviewWhere there is a weak electronic signal or electrical power, transistors rise as a solution to amplify and switch them. Field-effect transistors (FETs) and the …