TAUNTON, Mass.–Kopin Corp. today claimed new performance levels for power amplifiers and fiber-optic circuits fabricated with indium-gallium-phosphide/gallium ...

Smartphones, computers, cars, solar panels—none of them would work without one key material: the semiconductor. It’s the ...

This video explains how semiconductors work and how their electrical properties are controlled using band gaps and doping.

(Nanowerk News) What is already established for inorganic semiconductors stays a challenge for their organic counterparts: Tuning the energy gap by blending different semiconducting molecules to ...

A new technical paper titled “Utilizing photonic band gap in triangular silicon carbide structures for efficient quantum nanophotonic hardware” was published by researchers at UC Davis. “Silicon ...

A new technical paper titled “Deep-ultraviolet transparent conducting SrSnO 3 via heterostructure design” was published by researchers at University of Minnesota–Twin Cities and Caltech. The ...

Organic semiconductors have earned a reputation as energy efficient materials in organic light emitting diodes (OLEDs) that are employed in large area displays. In these and in other applications, ...

The continuous adjustability of this energy gap is desirable. Indeed, for inorganic materials an appropriate method already exists -- the so-called blending. It is based on engineering the band gap by ...