N thin films with record-high scandium levels, with exciting potential for ultra-low-power memory devices, as reported by ...

In a first, Australian scientists turned to quantum machine learning to model semiconductor design, outperforming classical ...

PDF for physics from the official Punjab Board website. Access chapter-wise details for physics with the link to download the ...

Get here detailed ISC Board Class 12 Physics Syllabus chapter-wise, marking scheme, weightage, paper pattern and Download PDF ...

Tokyo Electron (TOELY) is poised for growth due to increasing semiconductor demand from China. Learn why I rate the stock a buy.

Hiroshi Kawamoto, Division Officer, Finance Division of Tokyo Electron Limited (TEL), one of Japan's leading semiconductor equipment manufacturers, projects that demand for high-bandwidth memory ...

Diamond is an ultra-wide bandgap semiconductor with a dielectric breakdown strength at least 3 times higher than silicon carbide (SiC). Its high bandgap of 5.47 eV along with a low intrinsic carrier ...

Some elements in the periodic table, such as carbon, silicon, and germanium, are intrinsic semiconductors due to the number of electrons in their outermost electron shells.

Electron-phonon scattering is often the primary mechanism limiting electron mobility in semiconductors. Thus, changing phonon properties can provide a way to control conductivity.

Scientists observed record-breaking electron mobility — seven times higher than in conventional semiconductors — with a material made from the same elements as quartz and gold.

Beyond Silicon: Gallium Nitride and Silicon Carbide Third-generation semiconductors (with a bandgap greater than 2.3 electron volts), such as silicon carbide (SiC), gallium nitride (GaN), zinc oxide, ...