Metasurfaces featuring tailored silver nanocubes could allow thermal photodetectors to approach speeds akin to traditional ...

Military-grade infrared vision goggles use detectors made of mercury cadmium telluride, a semiconducting material that’s particularly sensitive to infrared radiation. Unfortunately, you need to keep ...

A new ultrathin photodetector from Duke University can sense light across the entire electromagnetic spectrum and generate a ...

MIT engineers have developed a technique to grow and peel ultrathin “skins” of electronic material. The method could pave the way for new classes of electronic devices, such as ultrathin wearable ...

(Nanowerk Spotlight) For decades, researchers have sought to understand and harness the pyroelectric effect in biological materials. Pyroelectricity refers to the phenomenon where heating or cooling a ...

Pyroelectric materials are able to convert any incident radiation into a signal, allowing them to sense wavelengths from UV through to THz. DLaTGS in particular is very sensitive, meaning a higher ...

Electrical engineers at Duke University have created the fastest pyroelectric photodetector ever demonstrated, a device that detects light by sensing ...

Engineers developed ultrathin electronic films that sense heat and other signals, and could reduce the bulk of conventional goggles and scopes. (Nanowerk News) MIT engineers have developed a technique ...

Deuterated Lanthanum α Alanine doped TriGlycine Sulphate, or DLaTGS for short is a crystalline structure that offers the strongest pyroelectric effect. Pyroelectric materials are able to convert any ...

Engineers developed a technique to grow and peel ultrathin 'skins' of electronic material that could be used in applications such as night-vision eyewear and autonomous driving in foggy conditions.