Indium(III) phosphide
Encyclopedia
Indium phosphide is a binary semiconductor
composed of indium
and phosphorus
. It has a face-centered cubic ("zincblende") crystal structure
, identical to that of GaAs and most of the III-V semiconductors.
InP is used in high-power and high-frequency electronics because of its superior electron velocity with respect to the more common semiconductors silicon
and gallium arsenide. It also has a direct bandgap, making it useful for optoelectronics
devices like laser diode
s. InP is also used as a substrate for epitaxial
indium gallium arsenide
based opto-electronic devices.
Indium phosphide also has one of the longest-lived optical phonon
s of any compound with the zincblende crystal structure.
Semiconductor
A semiconductor is a material with electrical conductivity due to electron flow intermediate in magnitude between that of a conductor and an insulator. This means a conductivity roughly in the range of 103 to 10−8 siemens per centimeter...
composed of indium
Indium
Indium is a chemical element with the symbol In and atomic number 49. This rare, very soft, malleable and easily fusible post-transition metal is chemically similar to gallium and thallium, and shows the intermediate properties between these two...
and phosphorus
Phosphorus
Phosphorus is the chemical element that has the symbol P and atomic number 15. A multivalent nonmetal of the nitrogen group, phosphorus as a mineral is almost always present in its maximally oxidized state, as inorganic phosphate rocks...
. It has a face-centered cubic ("zincblende") crystal structure
Crystal structure
In mineralogy and crystallography, crystal structure is a unique arrangement of atoms or molecules in a crystalline liquid or solid. A crystal structure is composed of a pattern, a set of atoms arranged in a particular way, and a lattice exhibiting long-range order and symmetry...
, identical to that of GaAs and most of the III-V semiconductors.
InP is used in high-power and high-frequency electronics because of its superior electron velocity with respect to the more common semiconductors silicon
Silicon
Silicon is a chemical element with the symbol Si and atomic number 14. A tetravalent metalloid, it is less reactive than its chemical analog carbon, the nonmetal directly above it in the periodic table, but more reactive than germanium, the metalloid directly below it in the table...
and gallium arsenide. It also has a direct bandgap, making it useful for optoelectronics
Optoelectronics
Optoelectronics is the study and application of electronic devices that source, detect and control light, usually considered a sub-field of photonics. In this context, light often includes invisible forms of radiation such as gamma rays, X-rays, ultraviolet and infrared, in addition to visible light...
devices like laser diode
Laser diode
The laser diode is a laser where the active medium is a semiconductor similar to that found in a light-emitting diode. The most common type of laser diode is formed from a p-n junction and powered by injected electric current...
s. InP is also used as a substrate for epitaxial
Epitaxy
Epitaxy refers to the deposition of a crystalline overlayer on a crystalline substrate, where the overlayer is in registry with the substrate. In other words, there must be one or more preferred orientations of the overlayer with respect to the substrate for this to be termed epitaxial growth. The...
indium gallium arsenide
Indium gallium arsenide
Indium gallium arsenide is a semiconductor composed of indium, gallium and arsenic. It is used in high-power and high-frequency electronics because of its superior electron velocity with respect to the more common semiconductors silicon and gallium arsenide. InGaAs bandgap also makes it the...
based opto-electronic devices.
Indium phosphide also has one of the longest-lived optical phonon
Phonon
In physics, a phonon is a collective excitation in a periodic, elastic arrangement of atoms or molecules in condensed matter, such as solids and some liquids...
s of any compound with the zincblende crystal structure.