Researchers have grown a high-performing 2D semiconductor to a full-size, industrial-scale wafer. In addition, the semiconductor material, indium selenide (InSe), can be deposited at temperatures low ...

A research team led by Prof. Seunguk Song from the Department of Energy Science at Sungkyunkwan University (SKKU), in collaboration with the Institute for Basic Science (IBS), the University of ...

Researchers used a solid-liquid-solid method to fabricate wafer-scale 2D InSe, solving key challenges in next-gen semiconductor manufacturing. (Nanowerk News) In a landmark advancement for ...

In breakthrough collaborative work published today in Nature, researchers show that a material called indium selenide can “shock” itself to transform from a crystalline to glassy phase using very low ...

Researchers from the University of Pennsylvania, Brookhaven National Laboratory, and the Air Force Research Laboratory grew the 2D semiconductor indium selenide (InSe) on a full-size, industrial-scale ...

In today’s world, the semiconductor industry functions along a threefold mandate: reducing chip sizes, increasing computing power, and controlling power in densely packed circuits. Researchers at the ...

Engineers from the EPFL Laboratory of Nanoscale Electronics and Structures have developed a gadget that effectively converts heat into electrical voltage at extremely low temperatures and with an ...

Forward-looking: A research team at EPFL University in Switzerland has created a 2D quantum computing system that can get colder than outer space. This is a major breakthrough for quantum computing, ...

Artist’s impression of electrically driven amorphisation in In2Se3, a layered semiconducting ferroelectric material. The middle layer is slipped by the carrier-wind force, and the lightning bolts ...