Chalcogenide RAM, made of the Ge2Sb2Te5 materials, has recently been regarded as the most promising next-generation memory. (Ge is germanium, Sb is antimony and Te is tellurium.) With a name derived ...

Chalcogenide perovskites are materials that can be used for many applications. The ability to produce high-quality films of many other semiconductor families has paved the way for computer devices, ...

Nanoclusters, which consist of several or even thousands of atoms, represent an important intermediate state between microscopic atoms and macroscopic matter. A profound comprehension of the ...

Chalcogenide glass thin films have emerged as a focal point in photonics and optoelectronics owing to their distinctive optical characteristics, including high refractive indices, broad infrared ...

Chalcogenide glass is widely used today in a number of specialist optics applications. Recent experiments with adding silver to the glass-forming materials that make chalcogenide glass have revealed ...

LightPath Technologies (NASDAQ:LPTH) used its investor day presentation to outline a multi-year shift from selling optical ...

Chalcogenide glasses represent a versatile class of amorphous materials that incorporate one or more chalcogen elements—typically sulphur, selenium or tellurium—in combination with network formers ...

CMOS (complementary metal-oxide-semiconductor) technology can be found in most all modern electronic devices—microcontrollers, microprocessors, and static RAM in both digital and analog form. We use ...

According to new research, metal chalcogenide perovskites can be used as a thermoelectric material than can convert thermal energy from the sun to usable electric power. These materials, which can ...

Chalcogenide glass, made from sulfur, selenium, and tellurium, is ideal for infrared applications due to its superior infrared transmission, high refractive index, and exceptional nonlinearity. It ...

A metasurface made of arsenic trisulphide nanowires (yellow) transmits an incoming near-infrared frequency (red) as well as its third harmonic ultraviolet frequency (violet), which would normally be ...

Archer OpTx is now using the PerfectLens™ glass molding process utilizing high quality, non-arsenic based chalcogenide materials to produce high performance infrared aspheric and aspheric-diffractive ...