Doping (semiconductor)

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Doping (semiconductor)

In semiconductor

Semiconductor

A semiconductor is a material that has electrical conductivity between those of a Electrical conductor and an electrical insulation; it can vary over that wide range either permanently or dynamically....
production, doping is the process of intentionally introducing impurities into an extremely pure (also referred to as intrinsic) semiconductor to change its electrical properties. The impurities are dependent upon the type of semiconductor. Lightly- and moderately-doped semiconductors are referred to as extrinsic

Extrinsic semiconductor

An extrinsic semiconductor is a semiconductor that has been doped, that is, into which a Dopant has been introduced, giving it different electrical properties than the Intrinsic semiconductor....
. A semiconductor doped to such high levels that it acts more like a conductor than a semiconductor is referred to as degenerate
Degenerate semiconductor

A degenerate semiconductor is a semiconductor with such a high Doping -level that the material starts to act more like a metal than as a semiconductor....
.

conductor doping was originally developed by John Robert Woodyard

John Robert Woodyard

John Robert Woodyard was a U.S. physicist who made important contributions to the technology of microwave electronics and invented "doping " to improve the performance of semiconductors....
working at Sperry Gyroscope Company during World War II

World War II

World War II, or the Second World War , was a global military conflict which involved a Participants in World War II, including all of the great powers, organised into two opposing military alliances: the Allies of World War II and the Axis powers....
.

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Encyclopedia

In semiconductor

Semiconductor

Extrinsic semiconductor

History

Semiconductor doping was originally developed by John Robert Woodyard

John Robert Woodyard

World War II

Radar

Radar is a system that uses electromagnetic radiation waves to identify the range, altitude, direction, or speed of both moving and fixed objects such as aircraft, ships, motor vehicles, weather formations, and terrain....
denied Woodyard the opportunity to pursue semiconductor doping research. However, after the war ended, his patent

Patent

A patent is a set of exclusive rights granted by a state to an inventor or his assignee for a term of patent in exchange for a disclosure of an invention....
proved the grounds of extensive litigation by Sperry Rand. Related work was performed at Bell Labs

Bell Labs

Bell Laboratories is the research organization of Alcatel-Lucent and previously of the American Telephone & Telegraph Company .Bell Laboratories has had its headquarters at Berkeley Heights, New Jersey, and it has research and development facilities throughout the world....
by Gordon K. Teal

Gordon K. Teal

Gordon Kidd Teal invented a method of applying the Czochralski method to produce extremely pure germanium single crystals used in making greatly improved transistors....
and Morgan Sparks

Morgan Sparks

Morgan Sparks was an American scientist and engineer who helped develop the microwatt bipolar junction transistor in 1951, which was a critical step in making transistors usable for every-day electronics....
.

Process

Some dopant

Dopant

A dopant, also called doping agent and dope, is an impurity element added to a crystal or semiconductor lattice in low concentrations in order to alter the optical/electrical properties of the semiconductor....
s are added as the (usually silicon

Silicon

Silicon is the most common metalloid. It is a chemical element, which has the symbol Si and atomic number 14. The atomic mass is 28.0855....
) boule

Boule (crystal)

A boule is a single crystal ingot produced by synthetic means. A boule of silicon is the starting material for most of the integrated circuits used today....
is grown, giving each wafer

Wafer (electronics)

A wafer is a thin slice of semiconductor material, such as a silicon crystal, used in the Semiconductor fabrication of integrated circuit and other microdevices....
an almost uniform initial doping. To define circuit elements, selected areas—typically controlled by photolithography

Photolithography

Photolithography is a process used in microfabrication to selectively remove parts of a thin film . It uses light to transfer a geometric pattern from a photomask to a light-sensitive chemical on the substrate....
—are further doped by such processes as diffusion

Diffusion

Molecular diffusion, often called simply diffusion, is a net transport of molecules from a region of higher concentration to one of lower concentration by random molecular motion....
and ion implantation

Ion implantation

Ion implantation is a materials engineering process by which ion s of a material can be implanted into another solid, thereby changing the physical properties of the solid....
, the latter method being more popular in large production runs because of increased controllability.

The number of dopant atoms needed to create a difference in the ability of a semiconductor to conduct is very small. When a comparatively small number of dopant atoms are added, on the order of one per 100 million atoms, the doping is said to be low or light. When many more dopant atoms are added, on the order of one per ten thousand atoms, the doping is referred to as heavy or high. This is often shown as n+ for n-type

N-type semiconductor

P-type semiconductor

A P-type semiconductor is obtained by carrying out a process of Doping , that is adding a certain type of atoms to the semiconductor in order to increase the number of free charge carriers ....
doping. (See the article on semiconductors for a more detailed description of the doping mechanism.)

Dopant elements

Group IV semiconductors

For the group IV

Group 4 element

In modern IUPAC nomenclature, Group 4 of the periodic table contains the following chemical elements:* titanium * zirconium * hafnium * rutherfordium ....
semiconductors such as silicon

Silicon

Silicon is the most common metalloid. It is a chemical element, which has the symbol Si and atomic number 14. The atomic mass is 28.0855....
, germanium

Germanium

Germanium is a chemical element with the symbol Ge and atomic number 32. It is a lustrous, hard, greyish-white metalloid in the carbon group, chemically similar to its group neighbors tin and silicon....
, and silicon carbide

Silicon carbide

Silicon carbide is a Chemical compound of silicon and carbon bonded together to form ceramics, but it also occurs in nature as the extremely rare mineral moissanite....
, the most common dopants are acceptors

Acceptor (semiconductors)

In semiconductors physics the term acceptor is used to generically indicate a Semiconductors#Dopants atom that added to a semiconductor can form p-type regions....
from group III

Boron group

The boron group is the chemical series of Chemical element in periodic table group in the periodic table. The boron group consists of boron , aluminium , gallium , indium , thallium , and ununtrium ....
or donors

Donor (semiconductors)

In semiconductors physics the term donor is used to generically indicate a Semiconductors#Dopants atom that added to a semiconductor can form n-type regions....
from group V

Nitrogen group

The Nitrogen group is periodic table group 15 of the periodic table and is also collectively named the pnictogens. This consists of nitrogen , phosphorus , arsenic , antimony , bismuth and ununpentium ....
elements. (The group number refers to the Roman numerals

Roman numerals

Roman numerals are a numeral system of ancient Rome based on letters of the alphabet, which are combined to signify the sum of their values. The system is decimal but not directly Positional notation and does not include a zero....
of the columns in the periodic table

Periodic table

The periodic table of the chemical elements is a table method of displaying the chemical elements. Although precursors to this table exist, its invention is generally credited to Russian chemist Dmitri Mendeleev in 1869....
of the elements

Chemical element

A chemical element is a type of atom that is distinguished by its atomic number; that is, by the number of protons in its atomic nucleus. The term is also used to refer to a pure chemical Chemical substance composed of atoms with the same number of protons....
.) Boron

Boron

Boron is a chemical element with atomic number 5 and the chemical symbol B. Boron is a trivalent metalloid element which occurs abundantly in the evaporite ores borax and ulexite....
, arsenic

Arsenic

Arsenic is a well-known chemical element that has the symbol As and atomic number 33. Arsenic was first documented by Albertus Magnus in 1250....
, phosphorus

Phosphorus

Phosphorus is the chemical element that has the symbol P and atomic number 15. The name comes from the and . A Valency nonmetal of the nitrogen group, phosphorus is commonly found in inorganic phosphate minerals....
, and occasionally gallium

Gallium

Gallium is a chemical element that has the symbol Ga and atomic number 31. Elemental gallium does not occur in nature, but as the Ga salt, in trace amounts in bauxite and zinc ores....
are used to dope silicon. Boron is the p-type dopant

Acceptor (semiconductors)

In semiconductors physics the term acceptor is used to generically indicate a Semiconductors#Dopants atom that added to a semiconductor can form p-type regions....
of choice for silicon integrated circuit production because it diffuses at a rate that makes junction depths easily controllable. Phosphorus is typically used for bulk-doping of silicon wafers, while arsenic is used to diffuse junctions, because it diffuses more slowly than phosphorus and is thus more controllable.

By doping pure silicon with group V elements such as phosphorus, extra valence electrons are added that become unbonded from individual atoms and allow the compound to be an electrically conductive n-type semiconductor

N-type semiconductor

An N-type semiconductor is obtained by carrying out a process of Doping , that is, by adding an impurity of Valence -five elements to a valence-four semiconductor in order to increase the number of free charge carriers ....
. Doping with group III elements, which are missing the fourth valence electron, creates "broken bonds" (holes) in the silicon lattice that are free to move. The result is an electrically conductive p-type semiconductor

P-type semiconductor

A P-type semiconductor is obtained by carrying out a process of Doping , that is adding a certain type of atoms to the semiconductor in order to increase the number of free charge carriers ....
. In this context, a group V element is said to behave as an electron donor, and a group III element as an acceptor.

Compensation

In most cases many types of impurities will be present in the resultant doped semiconductor. If an equal number of donors and acceptors are present in the semiconductor, the extra core electrons provided by the former will be used to satisfy the broken bonds due to the latter, so that doping produces no free carriers of either type. This phenomenon is known as compensation, and occurs at the p-n junction

P-n junction

A p-n junction is a junction formed by combining P-type semiconductor and N-type semiconductor semiconductors together in very close contact.The term junction refers to the region where the two regions of the semiconductor meet....
in the vast majority of semiconductor devices. Partial compensation, where donors outnumber acceptors or vice versa, allows device makers to repeatedly reverse the type of a given portion of the material by applying successively higher doses of dopants.

Although compensation can be used to increase or decrease the number of donors or acceptors, the electron and hole mobility

Electron mobility

In physics, electron mobility , is a quantity relating the drift velocity of electrons to the applied electric field across a material, according to the formula:...
is always decreased by compensation because mobility is affected by the sum of the donor and acceptor ions.

Doping in organic conductors

Conductive polymer

Conductive polymers are polymers that Electrical conductance electricity or that act as electrical semiconductors. To date, there remains to be discovered an organic polymer that is intrinsically electrically conducting....
s can be doped by adding chemical reactants to oxidize, or sometimes reduce, the system so that electrons are pushed into the conducting orbitals within the already potentially conducting system. There are two primary methods of doping a conductive polymer, both of which use an oxidation-reduction (i.e., redox

Redox

Redox describes all chemical reactions in which atoms have their oxidation number changed.This can be either a simple redox process such as the oxidation of carbon to yield carbon dioxide or the reduction of carbon by hydrogen to yield methane , or it can be a complex process such as the oxidation of sugar in the human body through a ser...
) process.

Chemical doping involves exposing a polymer such as melanin
Melanin

Melanin is a class of compounds found in the plant, animal, and protista kingdom , where it serves predominantly as a pigment. The class of pigments are derivatives of the amino acid tyrosine....
, typically a thin film
Thin film

Thin films are thin material Layer s ranging from fractions of a nanometre to several micrometres in thickness. Electronics semiconductor devices and optical coatings are the main applications benefiting from thin film construction....
, to an oxidant such as iodine
Iodine

Iodine , is a chemical element that has the symbol I and atomic number 53. Naturally-occurring iodine is a single isotope with 74 neutrons....
or bromine
Bromine

Bromine , , meaning "stench " ), is a chemical element with the symbol Br and atomic number 35. A halogen element, bromine is a reddish-brown Volatility liquid at Standard conditions for temperature and pressure that is intermediate in reactivity between chlorine and iodine....
. Alternatively, the polymer can be exposed to a reductant
Reducing agent

A reducing agent is the element or compound in a redox reaction that reduces another Chemical species. In doing so, it becomes oxidized, and is therefore the electron donor in the redox....
; this method is far less common, and typically involves alkali metals.
Electrochemical doping involves suspending a polymer-coated, working electrode
Electrode

An electrode is an electrical conductor used to make contact with a nonmetallic part of a Electronic circuit . The word was coined by the scientist Michael Faraday from the Greek language words elektron and hodos, a way....
in an electrolyte
Electrolyte

An electrolyte is any substance containing free ions that behaves as an electrical conductor medium. Because they generally consist of ions in solution, electrolytes are also known as ionic solutions, but molten electrolytes and solid electrolytes are also possible....
solution in which the polymer is insoluble along with separate counter and reference electrodes. An electric potential difference
Potential difference

In physics, the potential difference or p.d. between two points is the difference of the points' scalar potential, equivalent to the line integral of the field strength between the two points....
is created between the electrodes that causes a charge and the appropriate counter ion
Ion

An ion is an atom or molecule which has lost or gained one or more electrons, giving it a positive or negative electrical charge. According to the Bohr_model this will be from or in the outer shield 'n'....
from the electrolyte
Electrolyte

An electrolyte is any substance containing free ions that behaves as an electrical conductor medium. Because they generally consist of ions in solution, electrolytes are also known as ionic solutions, but molten electrolytes and solid electrolytes are also possible....
to enter the polymer in the form of electron addition (i.e., n-doping) or removal (i.e., p-doping).

N-doping is much less common because the Earth's atmosphere

Earth's atmosphere

The Earth's atmosphere is a layer of gases surrounding the planet Earth that is retained by the Earth's gravity. Dry air contains roughly 78.08% nitrogen, 20.95% oxygen, 0.93% argon, 0.038% Carbon dioxide in the Earth's atmosphere, and trace amounts of other gases....
is oxygen

Oxygen

Oxygen no O2 produced; 2) O2 produced, but absorbed in oceans & seabed rock; 3) O2 starts to gas out of the oceans, but is absorbed by land surfaces and formation of ozone layer; 4-5) O2 sinks filled and the gas accumulates]]...
-rich, thus creating an oxidizing environment. An electron-rich, n-doped polymer will react immediately with elemental oxygen to de-dope (i.e., reoxidize to the neutral state) the polymer. Thus, chemical n-doping must be performed in an environment of inert gas

Inert gas

An inert gas is any gas that is not reactive with elements.Like the noble gases an inert gas is not necessarily elemental and are often compound gases....
(e.g., argon

Argon

Argon is a chemical element designated by the symbol Ar. Argon has atomic number 18 and is the third element in group 18 of the periodic table ....
). Electrochemical n-doping is far more common in research, because it is easier to exclude oxygen from a solvent

Solvent

A solvent is a liquid or gas that dissolves a solid, liquid, or gaseous solute, resulting in a solution.The most common solvent in everyday life is water....
in a sealed flask

FLASK

The Flux Advanced Security Kernel is an operating system security architecture that provides flexible support for security policies.FLASK is a core framework in Security_focused_operating_system operating systems such as National_Security_Agency's Security-Enhanced Linux , OpenSolaris FMAC and FreeBSD#TrustedBSD....
. However, it is unlikely that n-doped conductive polymers are available commercially.

Magnetic doping

Research on magnetic doping has shown that considerable alteration of certain properties such as specific heat may be affected by small concentrations of an impurity; for example, dopant impurities in semiconducting ferromagnetic alloys can generate different properties as first predicted by White, Hogan, Suhl and Nakamura.

Doping (semiconductor)

History

Process

Dopant elements

Group IV semiconductors

Compensation

Doping in organic conductors

Magnetic doping

See also