NTU researchers have used a novel approach to create the new perovskites by incorporating dimethyl carbonate – a non-toxic ...

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 researchers “looked at creating a new class of materials with increased “band gap,” enhancing both transparency and conductivity. The new material is a transparent conducting oxide, created with a ...

SINGAPORE: Researchers at Nanyang Technological University (NTU) have made significant advancements in semiconductor ...

a number of new wide-band-gap semiconductor donor materials have been developed, yielding higher efficiencies than traditional systems that were paired with fullerene derivatives,” the ...

Semiconductor materials known as 2D halide perovskites can be used in devices such as solar cells and light-emitting diodes.

As new technologies and artificial intelligence advance, the demand for efficient and high-performance semiconductors is ...

This comprehensive, applications-oriented survey of Electromagnetic Band Gap (EBG) engineering explains the theory, analysis, and design of EBG structures. It helps you to understand EBG applications ...

Semiconductors power nearly all electronics, from smartphones to medical devices. A key to advancing these technologies lies in improving what scientists refer to as "ultra-wide band gap" materials.