In their ongoing efforts to push the boundaries of quantum possibilities, physicists in Arts & Sciences at Washington ...

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 ...

In diamond, each carbon atom is bonded to four other carbon atoms in a tetrahedral arrangement. But under the right circumstances, carbon can arrange itself hexagonally, forming a hardier material ...

This new diamond battery acts like a kind of solar panel ... (the time it takes for half of its atomic nuclei to decay into ...

(Top diagram) Diamond is metastable at room temperature and has a diamond cubic crystal structure. (Lower diagram) The diamond cubic structure is a face-centered-cubic lattice with a basis of two ...

Scientists encased nanodiamonds in tiny moving droplets of water to improve quantum sensing. The new technique lets researchers detect trace amounts of certain ions and molecules, and could someday ...

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 ...

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 ...