The band gap is a crucial property of semiconductors that significantly impacts their use in various devices, including solar cells, transistors, and photocatalysts.

A full-band Monte Carlo (MC) device simulator has been used to study the effects of device scaling on hot electrons in different types of n-channel metal-oxide-semiconductor field-effect transistor ...

Download Boise State’s Multi-Dielectric Energy Band Diagram Program—an interactive simulation tool for modeling MOS, MIM, and multilayer dielectric devices. Visualize band diagrams, calculate key ...

The article provides an overview of the TOF technology used in semiconductors and recent studies in this area.

However, the origin of (non-)Nernstian dependence between the pH and flat band potential of the metal oxide semiconductor is still in dispute. Herein, we extend a continuum double-layer (CDL) model to ...

Keywords: metal oxides, semiconductors, nanostructures, energy bands, biosensors Citation: Şerban I and Enesca A (2020) Metal Oxides-Based Semiconductors for Biosensors Applications.

In view of the growing interest in molecular orbitals (MOs) encountered in certain complex oxides, we review some of their properties from the band theory perspective and provide detailed examples ...

Thus, these results establish the first spectroscopic evidence that atomically precise carbon-based nanostructures can readily be synthesized on top of a transition-metal oxide surface, opening the ...

Thin-film metal oxides are among the key materials used in organic semiconductor devices. As there are no intrinsic charge carriers in a typical organic semiconductor, all charges in the device ...