In recent decades, advances in semiconductor technology have transformed society. Miniature transistors powering today's computers 3,7, efficient light-emitting diodes (LEDs) as light sources 1,6 and ...

Using state-of-the-art density functional theory (DFT) simulations, they showed that when a single layer of the semiconductor ...

Researchers have shown that a wide-bandgap semiconductor called gallium oxide can be engineered into nanometer-scale structures that allow electrons to move much faster within the crystal structure.

A research team has successfully achieved an atomically controlled insulator-to-metal transition in iridate/manganate heterostructures. Their findings were recently published in Nature Communications.

CATALOG DESCRIPTION: Basic concepts of lasers; laser applications; gas and liquid lasers; solid-state lasers; semiconductor lasers; materials and devices; rate equations; laser gain and saturation; ...

The first thrust of our research focuses on investigating the intriguing physical phenomena that arise when materials are reduced to dimensions below their fundamental length scales. At these reduced ...

From transistors and flexible display to neuromorphic chips, the future of electronics is expected to be significantly ...

Heterostructure catalysis is an emerging field that focuses on the design and application of catalytic materials composed of two or more distinct components with different chemical compositions, ...

(Nanowerk News) Aluminum Yttrium Nitride (AlYN) has attracted the interest of many research groups around the world due to its outstanding material properties. However, the growth of the material has ...

Gallium arsenide phosphide is a semiconductor material and an alloy of gallium phosphide and gallium arsenide. It exists in various composition ratios denoted by x in its formula. Gallium arsenide ...