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Introduction to Semiconductor

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Title: Introduction to Semiconductor


1
Lecture 1
  • Introduction to Semiconductor

2
Semiconductor
  • Semiconductors are materials with conductivity
    that can be controlled through methods such as
    doping or changing the temperature. 
  •   Conductivity can be increased through doping,
    creating either p-type semiconductors or n-type
    semiconductors.

3
Atomic Theory
  • Atom is smallest piece of an element that keeps
    its chemical properties
  • Atom contains 3 basic particles
  • Protons
  • Neutrons
  • Electrons orbit around nucleus

- Form the nucleus
4
Bohr models
  • The major advantage of the Bohr model was that it
    worked. It explained several things
  • Atomic spectra - discussed above
  • Periodic behavior of elements - elements with
    similar properties had similar atomic spectra.
  • Each electron orbit of the same size or energy
    (shell) could only hold so many electrons.
  • First shell two electrons
  • Second shell eight electrons
  • Third shell and higher eight electrons
  • When one shell was filled, electrons were found
    at higher levels.
  • Chemical properties were based on the number of
    electrons in the outermost shell.
  • Elements with full outer shells do not react.
  • Other elements take or give up electrons to get a
    full outer shell.

5
Valence shell
  • Outermost shell for a given atom
  • Determines the conductivity of the atom
  • Contains up to 8 electron
  • 1 electron in valence shell nearly perfect
    conductor
  • 8 electron in valence shell complete insulator
  • 4 electron in valence shell - semiconductor

6
Covalent Bonding
  • A method by which atoms complete their valence
    shells by sharing valence electron with other
    atoms
  • Covalent bond will result in a stronger bond
    between the valence electrons and their parent
    atom (insulator)
  • However, valence electrons still possible to
    absorb sufficient kinetic energy from natural
    causes to break the covalent bond and assume free
    state
  • Refer figure 1.7

7
Energy Level
  • There are discrete energy levels associated with
    each orbiting electron
  • The more distance the electron from the nucleus,
    the higher energy state

8
  • Insulators
  • Electrons tightly bound to host ion
  • need large amounts of energy to break free
  • very low numbers of free electrons low
    conductivity
  • electric currents do not pass easily
  • e.g. paper, rubber, PVC
  • Conductors
  • Electrons very loosely bound to host ions
  • very easy to break free from ions
  • free to "wander" around crystal large numbers of
    free electrons
  • about one per atom high conductivity
  • movement of electrons produces current in
    opposite direction
  • e.g. metals - Cu, Ag, Al etc
  • Semiconductors
  • Electrons have moderate binding energies
  • at absolute zero, all electrons are tightly
    bound insulator
  • at very high temps, material can conduct
    conductor

9
Conduction in metals
  • Free electrons in metal have a wide range of
    energies velocities
  • behave as a "cloud" of electrons
  • individual electrons wander through crystal
    collide with ion cores
  • individual electrons may travel in many different
    directions
  • No net flow of current - flow in one direction
    balanced by flow in another
  • Electron cloud can be accelerated by applied
    external electric-field
  • p.d. across the ends
  • cloud moves in opposite direction to field with
    drift velocity vd
  • constitutes an electric current in direction of
    field
  • Can show that
  • V IR (OHM's LAW)

10
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