Ravian said:Thanks! So what sort of experimental measurements we should make in order establish a material as a semiconductor, metal or insulator? Apparently having a band gap is not enough.
Ravian said:Thanks! So what sort of experimental measurements we should make in order establish a material as a semiconductor, metal or insulator? Apparently having a band gap is not enough.
A semiconductor is a material that has electrical conductivity between that of a conductor and an insulator. This means that it can conduct electricity, but not as well as a metal.
A conductor has a high electrical conductivity, meaning it can easily conduct electricity. An insulator has a very low electrical conductivity, meaning it does not allow electricity to flow through it. A semiconductor's electrical conductivity falls in between these two extremes.
A material is considered a semiconductor if it has a band gap, meaning there is a range of energy levels between the valence band (where electrons are tightly bound to atoms) and the conduction band (where electrons are free to move and conduct electricity). This allows the material to conduct electricity under certain conditions, but not as easily as a conductor.
Some common semiconducting materials include silicon, germanium, and gallium arsenide. These materials are often used in electronic devices such as transistors, diodes, and solar cells.
The conductivity of a semiconductor can be controlled by manipulating the number of electrons in the conduction band. This can be achieved through processes such as doping, where impurities are intentionally added to the material, or by applying an external electric field. This allows for the precise control and manipulation of electrical currents in electronic devices.