Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

Doping: The process of adding impurities to a semiconductor to change its electrical properties. Monolayer Doping: A technique that allows for the introduction of dopants in a single layer ...

Rising demand for ultra-high purity gases drives semiconductor innovation, with TSMC, Samsung, and Intel leading consumption, ...

According to Mi2-factory, chip producers buy EFII to save costs, increase performance increase and enable design innovations in SiC power device manufacturing. For specific SiC power devices, ...

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

which are themselves semiconductors) interspersed throughout the silicon crystal lattice in a process called "doping." The choice of dopant determines what properties the finished semiconductor ...

Soitec's photonics wafers are used for data center optical interconnections as higher communication speeds are needed. Soitec's manufacturing technology seems to be the only efficient and reliable way ...

In contrast, semiconductor-based detectors made from wide-bandgap and ultra-wide-bandgap materials offer several advantages, including higher temperature resistance, better radiation tolerance ...

A permanent antibacterial coating for surgical sutures, created using atomic layer deposition, fully prevents bacterial growth while ensuring biocompatibility.

Important material properties can be explained at the level of quantum physics - for example, whether a material conducts electricity or not. Analysing such quantum states has now revealed that there ...

This is where **extrinsic semiconductors** come in. By intentionally introducing impurities (a process known as doping), we can enhance the electrical properties of semiconductors. Doping creates ...