And now, scientists have shown that the symmetrical structure of silicon molecules can be fine-tuned to create, or suppress, ...

Optical computer An intriguing analogy exists between crystalline silicon/diamond and the new artificial diamond structure: crystalline silicon and diamond both have a forbidden energy band as a ...

Silicon, a semi-metal, bonds in its natural form with four other elements and its three-dimensional structure takes the form of a tetrahedron. For a long time, it seemed impossible to achieve the ...

“Indium oxide contains oxygen-vacancy defects, which facilitate carrier scattering and thus lower device stability,” says ...

Silicon that has an ordered atomic structure. It is used in almost all integrated circuits in the electronics industry. Fabricated from quartzite, a pure form of sand, the quartzite is treated ...

By building the silicon quantum devices in Princeton’s Quantum Device Nanofabrication Laboratory, the researchers were able to keep the spins coherent — that is, in their quantum states — for ...

The colors of rubies and emeralds are so striking that they define shades of red and green – ruby red and emerald green. But ...

The Crystalline Silicon Solar PV Market Report 2021-2031: This report will prove invaluable to leading firms striving for new revenue pockets if they wish to better understand the industry and its ...

Now Maroudas and colleagues have established that the hydrogen atoms can rearrange the atoms in amorphous silicon into the lattice structure found in crystalline silicon. The researchers proposed that ...

Unlike crystalline materials, in which atoms are found in ordered arrangements, amorphous solids do not have a clearly defined structure.

Silicon is the backbone of the semiconductor industry, but it's also interesting in its own right. Here's why it's so important in modern computing—and in many other applications.