semiconductor-electronics--materials-devices-and-simple-circuits Question 10

Question: Q. 1. (i) Distinguish between $n$-type and $p$-type semiconductors on the basis of energy band diagrams.

(ii) Compare their conductivities at absolute zero temperature and at room temperature.

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Solution:

Ans. (i)

R [Delhi1, II, III 2015]

$n$-type semiconductor $p$-type semiconductor
In this, an extra
energy level known
as donor energy level
is produced below
the bottom of the
conduction band.
In this, extra energy
band known as
acceptor energy level is
produced above the top
of valence band.
In this, most of the
electrons come from
the donor impurity.
In this, density of
holes in valence band
is predominantly due
to impurity in extrinsic
semiconductors.
$n_{e}>n_{h}$ $n_{h}>n_{e}$

[Any one of the above, or any one, other correct distinguishing feature]

(ii) At absolute zero temperature conductivities of both type of semiconductors will be zero.

1 For equal doping, an $n$-type semi conductor will have more conductivity than a $p$-type semiconductor, at room temperature.

$$ 1 $$



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