The idea with silicon-based quantum computers is that impurities form the basis of a qubits. If you drop a single phosphorous atom into a silicon crystal, it replaces a silicon atom.

Atom-scale Images Give Materials Researchers New Tool For Developing Advanced Ceramics. ScienceDaily . Retrieved June 3, 2025 from www.sciencedaily.com / releases / 2004 / 04 / 040416012339.htm ...

The atom-scale images match, almost exactly, ... The images of silicon nitride were made with ORNL's 300-kilovolt Z-contrast scanning transmission electron microscope ...

The electronic configuration of the silicon atom is: (Ne)(3s) 2 (3p) 2, and the atomic radius is 0.132 nm. Silicon has the diamond cubic crystal structure with a lattice parameter of 0.543 nm. The ...

Researchers have created silicon wire four atoms wide and one atom tall, capable of carrying current equivalent to copper wires 20 times as thick.

Take one atom of the element antimony, use an ion beam to shoot it into a silicon substrate, and you just may be on your way to building a working quantum computer. That’s according to ...

The ORNL research team documented the atoms' unique behavior by first trapping groups of silicon atoms, known as clusters, in a single-atom-thick sheet of carbon called graphene.The silicon ...

The donor atom—in this case, antimony (Sb) —carries one more electron (five) than a silicon atom (four). Because electrons pair up, the odd Sb electron remains free.

Step aside, graphene, "silicene" is the trendy new nano-material in town that could one day supercharge future tech. Scientists have created the world's first transistor out of the silicon-based ...