Learn about the different R&D projects Idaho National Laboratory will conduct with Boise State University and the University ...

Through materials science, we can tailor existing substances or engineer completely novel materials to generate new and ...

At the University of Glasgow’s James Watt Nanofabrication Centre, the team used surface chemistry techniques to improve the ...

LEDs are another semiconductor application that relies on the band gap, but for LEDs the band gap plays a role both functional and aesthetic. When a particle or material absorbs energy ...

The hybrid integration of GaN and silicon paves the way for high-efficiency, cost-effective 5G and millimetre-wave RF systems that provide a cutting-edge power density and scalability.

A research group led by Prof. Yang Liangbao from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences ...

These materials possess band gaps that are well-suited for solar energy conversion, with absorption coefficients that exceed those of traditional high-performance semiconductors. This discovery ...

Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap between the valence and conduction bands, allowing them to handle higher ...

Wide Bandgap Semiconductors: Materials that have a larger energy gap between the valence band and conduction band, allowing them to operate at higher voltages and temperatures. Quantum Well ...

This industry application has become more difficult in recent years due to regulatory and market pressure to increase ...

Researchers have built a deep-ultraviolet microscope to study hard-to-analyze materials like diamond, offering a new way to probe their electronic and thermal properties at the nanoscale. This ...