differentiate between n-type semiconductors and p-type semiconductors.
Answers
The impurity added in p-type semiconductor provides extra holes known as Acceptor atom, whereas in n-type semiconductor impurity provides extra electrons and termed as Donor atom. In a p-type semiconductor, the majority carriers are holes, and minority carriers are electrons.
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In a p-type semiconductor, the III group element of the periodic table is added as a doping element, whereas in n-type the V group element is the doping element.
Trivalent impurity like Aluminium, Gallium and Indium is added in the p-type semiconductor, while in n-type semiconductor Pentavalent impurity like Arsenic, Antimony, Phosphorus, Bismuth, etc. are added.
The impurity added in p-type semiconductor provides extra holes known as Acceptor atom, whereas in n-type semiconductor impurity provides extra electrons and termed as Donor atom.
In a p-type semiconductor, the majority carriers are holes, and minority carriers are electrons. In the n-type semiconductor, electrons are majority carriers, and holes are minority carriers.
The electron density is much greater than the hole density in the n-type semiconductor denoted as ne >> nh whereas, in p-type semiconductor the hole density is much greater than the electron density nh >> ne.
In a n-type semiconductor, the donor energy level is close to the conduction band and away from the valence band. In the p-type semiconductor, the acceptor energy level is close to the valence band and away from the conduction band.
The Fermi level of the n-type semiconductor lies between donor energy level and the conduction band while the Fermi level of the p-type semiconductor lies between the acceptor energy level and the valence band.
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Majority carriers move from higher to lower potential in p-type whereas, in n-type, the majority carriers move from lower to the higher potential.