As another plus, this carbon-14 is derived from graphite blocks, which are a byproduct of nuclear fission reactors. So, not ...

The second allows you manipulate a diamond crystal, giving you a three-dimensional look into how its carbon atoms are arranged. The goal of this activity is to construct a carbon atom. You'll ...

It centers around "quantum diamond" surfaces, in which carbon atoms are removed and a neighboring atom is replaced with nitrogen — creating something the scientists call "nitrogen-vacancy centers." ...

Although both are "made, not mined," moissanite gemstones and lab-grown diamonds are NOT one in the same. Here are some of ...

Researchers amp up the signal from tin atoms embedded in diamond, opening possibilities for quantum networking.

The future of tin-based qubits is brighter thanks to breakthrough work by Stanford University researchers. Qubits are the fundamental carriers of quantum information, and scientists worldwide are ...

Carbon atoms are arranged in a regular pattern, meaning carbon is solid at room temperature. Diamond is transparent. It can be cut into shapes that sparkle for jewellery. It is also extremely hard ...

However, using an atom-thick layer of carbon atoms known as graphene, experts found that even after 100 hours under irradiation of an atom beam, the grating showed no damage and diffraction still ...

Carbon atoms move around the planet in a process ... or allotropes, including graphene, diamond, nanotubes, and fullerenes or "buckyballs." Each form has attributes that make it excel at certain ...

One material which endures these conditions far more readily is diamond: a form of carbon with atoms arranged in a sturdy 3D lattice. "Diamond is known for its robust physical and chemical ...