Silicon can be doped using one of the following elements as dopant:
(A) Arsenic
(B) Indium
(C) Phosphorus
(D) Boron.
To get an n-type semiconductor, the dopants that can be used are______.
Fill in the blank with the correct answer from the options given below.
(A) Arsenic
(B) Indium
(C) Phosphorus
(D) Boron.
To get an n-type semiconductor, the dopants that can be used are______.
Fill in the blank with the correct answer from the options given below.
- (A) and (C) only
- (B) and (C) only
- (A), (B), (C), and (D)
- (C) and (D) only
The Correct Option is A
Approach Solution - 1
- An n-type semiconductor is formed when the dopant atoms introduce additional electrons into the material, providing excess negative charge carriers.
- Dopants for n-type semiconductors are typically elements with five valence electrons (Group 15 elements in the periodic table).
- Silicon has four valence electrons; thus, adding an element with five valence electrons provides an extra electron that can be a free carrier for conduction.
- Arsenic (A): A Group 15 element with five valence electrons.
- Indium (B): A Group 13 element with three valence electrons; typically used for p-type doping.
- Phosphorus (C): A Group 15 element with five valence electrons.
- Boron (D): A Group 13 element with three valence electrons; used for p-type doping.
Approach Solution -2
To determine the dopants that can create an n-type semiconductor in silicon, we need to understand the concept of doping.
Doping:
Doping involves adding impurities to a semiconductor to alter its conductivity.
n-type Semiconductor:
An n-type semiconductor is created by adding impurities with more valence electrons than silicon (which has 4 valence electrons). These impurities donate extra electrons, increasing the number of free electrons and thus the conductivity.
p-type Semiconductor:
A p-type semiconductor is created by adding impurities with fewer valence electrons than silicon. These impurities create "holes" (electron vacancies), which act as positive charge carriers, increasing conductivity.
Analysis of Dopants:
- (A) Arsenic (As): Arsenic has 5 valence electrons. It can donate an extra electron, making silicon an n-type semiconductor.
- (B) Indium (In): Indium has 3 valence electrons. It creates holes, making silicon a p-type semiconductor.
- (C) Phosphorus (P): Phosphorus has 5 valence electrons. It can donate an extra electron, making silicon an n-type semiconductor.
- (D) Boron (B): Boron has 3 valence electrons. It creates holes, making silicon a p-type semiconductor.
Therefore, to create an n-type semiconductor, we can use Arsenic (A) and Phosphorus (C).
The correct answer is:
Option 1: (A) and (C) only
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