It is desirable to develop high-performance infrared devices using non-toxic, direct transition semiconductors with a band gap in the infrared range.

Researchers have demonstrated that by using a semiconductor with flexible bonds, the material can be molded into various ...

In contrast, electronic transitions in direct band gap semiconductors do not involve lattice vibrations, so these materials emit copious amounts of light when electrons are excited – and are very good ...

The pressure-induced evolution of hydrogen's electronic band from a wide gap insulator to a closed gap metal, or metallic hydrogen, has been a longstanding problem in modern physics.

Understanding Band Gap Engineering in Nanotechnology Definition: Band Gap Engineering is a process used in semiconductor material science to tailor the energy gap between the valence and conduction ...

"With a direct band gap semiconductor in the visible range, you can use light to make devices work for useful applications." ...

It is a direct band-gap semiconductor with a zinc blende crystal structure. Sensing for autonomous and electric vehicles is one use of technology. 3D Sensing for consumer electronics and use for ...

Researchers have identified novel 2D wide-band-gap semiconductors with high stabilities, namely monolayer arsenene and antimonene. These materials are indirect wide-band-gap semiconductors, and under ...

The band gap is a crucial property of semiconductors that significantly impacts their use in various devices, including solar cells, transistors, and photocatalysts.