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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 …

Graphene is a one-atom-thick sheet of carbon atoms arranged in a honeycomb (hexagonal) pattern. Despite being just a single layer, it boasts 200 times the strength of steel and excellent electrical and thermal conductivity. First isolated by Andre Geim and Konstantin Novoselov in 2004, graphene’s potential has unleashed in the last two decades. This guide provides a comprehensive overview—from graphene’s discovery to its wide-ranging applications in electronics, energy, biomedi …

When we look around us, we will find many things and objects around which is an application of silicon or other semiconductor devices in a way or another. It is there on televisions, laptops, mobile phones, smart gadgets and other circuitries that are available. Silicon is the second most common element on Earth, after the oxygen at first place, and seventh most available element in the universe. It has high stability and mobility at higher and even at standard room temperatures. Due to th …

The world of nanotechnology offers a wide range of applications in different sectors. This is particularly the case at the medical level. The performance of care, the possibilities of reconstruction and drug innovations suggest spectacular prospects. Today, nanomedicine is moving forward. The results and the promises are at the rendezvous. The application of nanotechnology in the medical field is in the process of revolutionizing the practice of medical care around the world. The main caus …