Additionally, nanostructuring—altering the material's structure at the nanoscale—has emerged as a powerful method to engineer band gaps. Despite its potential, Band Gap Engineering faces challenges, ...

The work by researchers in the Center for Advanced Semiconductor Technologies could lead to energy-efficient microelectronics ...

A team led by Yi Xie is exploring the potential of 2D materials to change how we harness ... affected its exciton binding energy gap, widening its light absorption spectrum, improving efficient ...

Transition metal dichalcogenides (TMDs) are a class of two-dimensional (2D) materials with unique electronic and optical ... (a) The table shows common TMDs and their band gap. (b) A schematic ...

Nanoelectronics deal with extremely small electronic components—transistors, sensors and circuits that can fit on the tip of a needle. This technology powers our everyday lives through devices such as ...

According to Tech Xplore, WasteBanned will allow designers to use as much of the material as possible. The majority of people ...

These findings demonstrate that covalent linked 2D materials hold promise for their application in broad-band photodetection.

The work, from researchers in the UB Center for Advanced Semiconductor Technologies, could lead to energy-efficient ...