Researchers propose 3D semiconductor architectures using 2D semiconductor materials for better performance and scalability ...

Energy band structures of metal and insulator, Definition of semiconductor, Electrons and holes, and Effective mass. In this module, we will cover carrier statistics. Topics include Currents in ...

Complex materials such as organic semiconductors or the microporous metal-organic frameworks known as MOFs are already being ...

Topological materials are revolutionizing semiconductor manufacturing, offering enhanced conductivity and efficiency for next-generation electronic devices.

It all comes down to the bandgap. Electrons in a semiconductor can sit in one of two energy bands – the valence band, or the conducting band. To jump from the valence band to the conducting band ...

Techniques for Band Gap Engineering vary, including doping, the introduction of impurities into a semiconductor to alter its electrical properties; strain engineering, where stress is applied to ...

Researchers from the University of Cambridge and the Eindhoven University of Technology have developed an organic ...

In this module on metal-semiconductor contacts, we will cover the following topics: Device structure, Equilibrium energy band diagram, Electrostatic analysis, Energy band diagram under bias, ...

MXene is a lightweight two-dimensional (2D) material capable of protecting everything—including spacecraft, mechanical ...

1) Wide Band Gap power semiconductor ... technology's scope by pursuing reliability evaluations of SiC power semiconductors under ultra-high energy (over 200MeV) radiation conditions and ...