carbon is not used as the semiconductor because it has larger band gap than silicon and germenium
p-type semiconductor is obtained by carrying out a process of doping that is by adding a certain type of atoms to the semiconductor in order to increase the number of the free charge carriers.
A photocell is typically made from a semiconductor material such as silicon. When light strikes the semiconductor material, it generates an electric current, making it a key component in light-sensing devices.
Electron holes in semiconductor devices play a crucial role in the flow of electrical current. When an electron moves from one atom to another in a semiconductor material, it leaves behind a hole. These holes can move through the material, allowing for the movement of charge and the creation of an electric current. By controlling the movement of electron holes, semiconductor devices can be used in a variety of electronic applications, such as transistors and diodes.
The element commonly used in photoelectric cells is silicon. Silicon is a semiconductor material that can absorb photons of light and generate an electric current.
Semiconductor material can be made to become a conductor by doping it with impurities that introduce extra charge carriers. This increases the material's conductivity. On the other hand, to turn semiconductor material into an insulator, it can be cooled to very low temperatures to reduce the thermal energy of the charge carriers, effectively halting conductivity.
Nothing has been found about the electrical conductivity of carbon compared to other conductors. It is not a semiconductor.
Silicon based semiconductors are the most commonly used semiconductor material in calculators. Silicon semiconductors are also extensively used in computers.
* silicon * germanium * gallium arsenide * etc.
A: gallium arsenide
An intransic material is a material that have been used in doping process.There are two type of intrinsic material n type and p type.
p-type semiconductor is obtained by carrying out a process of doping that is by adding a certain type of atoms to the semiconductor in order to increase the number of the free charge carriers.
A semiconductor is a material that is neither completely conductive nor completely non-conductive.Semiconductors used in integrated circuits are the basis for modern electronics.(note: the word semiconductor is often informlly used for the IC chips based on this technology)
The metalloid in the fourth period that is in the same group as carbon is silicon (Si). Silicon is located in Group 14 of the periodic table, just below carbon, and shares similar chemical properties. It is widely used in electronics and as a semiconductor material.
They vary depending on power rating and use. Popular materials are Carbon, nickel chromium wire and semiconductor material, such as silicon.
Arsenic is not a semiconductor by itself, but it is commonly used as a dopant in semiconductor materials like silicon to alter their electrical properties. Arsenic increases the number of available charge carriers in the material, which can make it conduct electricity more effectively.
Metal Oxide Semiconductor. Usually used when referring to a specific type of transistor which uses this type of semiconductor material: the Field Effect Transistor (FET).
what is a semiconductor material? what are its main types, explain each type