The choice of dopant determines what properties the finished semiconductor will have. There exist a huge number of exotic semiconductor materials, almost as many as there are material science ...

The study of electronic properties in semiconductors and crystalline materials is crucial for advancing technology in electronics, optoelectronics, and materials science. Recent research has ...

Previously, boron-doped diamonds were known to conduct electricity and become superconductors, but not to have plasmonic properties. Unlike metals or even other doped semiconductors, boron-doped ...

Analyze the carrier statistics in semiconductors. Analyze the carrier dynamics and the resulting conduction properties of semiconductors. In this module we will introduce the course and the ...

Ion irradiation is a powerful technique used to modify the structural properties of materials, particularly in the field of semiconductors. This process involves bombarding a material with ions ...

Previously, boron-doped diamonds were known to conduct electricity and become superconductors, but not to have plasmonic properties. Unlike metals or even other doped semiconductors, boron-doped ...

This core-shell structure helps passivate the surface of the nanoparticle, reducing surface defects and enhancing its optical and electronic properties. One of the most fascinating aspects of ...

A new hydrogel material combines the characteristics of biological tissues with the electronic functionalities of semiconductors ...

Previously, boron-doped diamonds were known to conduct electricity and become superconductors, but not to have plasmonic properties. Unlike metals or even other doped semiconductors, boron-doped ...