Gallium
|
|
| General |
|---|
| Name, Symbol, Number
|
gallium, Ga, 31
|
| Chemical series
|
poor metals
|
| Group, Period, Block
|
13 (IIIA), 4 , p
|
| Density, Hardness
|
5904 kg/m3, 1.5
|
| Appearance
|
silvery white
|
| Typical (melted blob) Crystallized
|
| Atomic properties |
| Atomic weight
|
69.723 amu
|
| Atomic radius (calc.)
|
130 (136)pm
|
| Covalent radius
|
126 pm
|
| van der Waals radius
|
187 pm
|
| Electron configuration
|
[Ar]3d10 4s2 4p1
|
| e- 's per energy level
|
2, 8, 18, 3
|
| Oxidation states (Oxide)
|
3 (amphoteric)
|
| Crystal structure
|
orthorhombic
|
| Physical properties |
| State of matter
|
Solid
|
| Melting point
|
302.91 K (85.57 °F)
|
| Boiling point
|
2477 K (3999 °F)
|
| Molar volume
|
11.80 ×10-6 m3/mol
|
| Heat of vaporization
|
258.7 kJ/mol
|
| Heat of fusion
|
5.59 kJ/mol
|
| Vapor pressure
|
9.31 E-36 Pa at 302.9 K
|
| Speed of sound
|
2740 m/s at 293.15 K
|
| Miscellaneous |
| Electronegativity
|
1.81 (Pauling scale)
|
| Specific heat capacity
|
370 J/(kg
|
| Electrical conductivity
|
6.78 10-6/(m·ohm)
|
| Thermal conductivity
|
40.6 W/(m
|
| 1st ionization potential
|
578.8 kJ/mol
|
| 2nd ionization potential
|
1979.3 kJ/mol
|
| 3rd ionization potential
|
2963 kJ/mol
|
| 4th ionization potential
|
6180 kJ/mol
|
| Most stable isotopes |
| iso | NA | half-life | DM | DE MeV | DP
>- |
>69Ga
>60.1%
>colspan="4" >Ga is stable with 38 neutrons
>- 71Ga
|
39.9%
|
Ga is stable with 39 neutrons
|
|
! colspan="2" align="center" bgcolor="#cccccc" | SI units & STP are used except where noted.
Gallium is a
chemical element in the
periodic table that has the symbol
Ga and
atomic number 31. A rare, soft silvery metallic
poor metal, gallium is brittle at low temperatures but is liquid above room temperature and can indeed melt in the hand. It occurs in trace amounts in
bauxite and
zinc ores.
Gallium arsenide is used as a
semiconductor, most notably in
light-emitting diodes (LEDs).
Notable characteristics
Very-pure gallium has a stunning silvery color and its solid metal fractures
conchoidally like
glass. Gallium metal expands by 3.1 percent when it solidifies, and therefore should not be stored in either glass or metal containers. Gallium also corrodes most other metals by diffusing into their metal lattice.
Gallium is one of four metals (with
caesium,
mercury, and
rubidium) which are liquid at near normal room temperature, and can therefore be used in high-temperature
thermometers. It is also notable for having one of the largest liquid ranges for a metal, and for having a low
vapor pressure at high temperatures.
This metal has a strong tendency to supercool below its
melting point, thus necessitating seeding in order to solidify. High-purity gallium is attacked slowly by mineral acids.
The
melting point temperature is very low, T=30 °C, and the density is higher in the liquid state than in the crystalline state (like in the case of water; the opposite effect is normally found for metals).
Gallium does not
crystallize in any of the simple
crystal structures. The stable phase under normal conditions is
orthorhombic with 8 atoms in the conventional unit cell. Each atom has only one nearest neighbor (at a distance of 2.44 Å) and six other neighbors within additional 0.39 Å. Many stable and metastable phases are found as function of temperature and pressure.
The bonding between the nearest neighbors is found to be of covalent character, hence Ga
2 dimers is seen as the fundamental building block of the crystal. The compound,
gallium arsenide is a
semiconductor commonly used in
light-emitting diodes).
Applications
Analog
integrated circuits are the most common application for gallium, with optoelectronic devices (mostly
laser diodes and light-emitting diodes) as the second largest end use.
Other uses include:
- Since it wets glass or porcelain, gallium is used to create brilliant mirrors.
- Used widely to dope semiconductors and produce solid-state devices like transistors.
- Gallium readily alloys with most metals, and has been used as a component in low-melting alloys. The plutonium pits of nuclear weapons employ an alloy with gallium to stabilize of the allotropes of plutonium. Much research is being devoted to gallium alloys as substitutes for mercury dental amalgams, but such compounds have yet to see wide acceptance. Gallium added in quantities up to 2% in common solders can aid wetting and flow characteristics.
- Gallium is used in some high temperature thermometers, and a eutectic alloy of gallium, indium, and tin is widely available in fever thermometers, replacing mercury. This alloy, with the trade name Galinstan, has a freezing point of -20C.
- Magnesium gallate containing impurities (such as Mn+2), is beginning to be used in ultraviolet-activated phosphor powder.
History
Gallium (
Latin Gallia meaning "France"; also
gallus, meaning "cock") was discovered
spectroscopically by Lecoq de Boisbaudran in 1875 by its characteristic spectrum (two
violet lines) in an examination of a zinc blend from the
Pyrenees. Before its discovery, most of its properties had been predicted and described by
Dmitri Mendeleev (who called the hypothetical element
eka-aluminium) on the basis of its position in his
periodic table. Later in 1875, Boisbaudran obtained the free metal through the
electrolysis of its hydroxide in
KOH solution. He named the element after his native land of
France and, in one of those multilingual puns so beloved of men of science of the early
19th century, after himself, as
Lecoq = the rooster, and
Latin for rooster is "gallus".
Occurrence
Gallium does not exist in pure form in nature, nor are gallium compounds a primary source of extraction. It is rather found and extracted as a trace component in
bauxite,
coal,
diaspore,
germanite, and
sphalerite. The USGS estimates gallium reserves based on 50 ppm concentration in known reserves of bauxite and zinc ores. Some flue dusts from burning coal have been shown to contain as much 1.5 percent gallium.
Precautions
While not considered toxic, the data about gallium is inconclusive. Some sources suggest that it may cause
dermatitis from prolonged exposure, other tests have not caused a positive reaction.
References
External links
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cs:Gallium
de:Gallium
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eo:Galiumo
fr:Gallium
it:Gallio (elemento chimico)
nl:Gallium
ja:ガリウム
pl:Gal
pt:Gálio
sl:Galij
sv:Gallium
Category:Chemical elements
Category:Metals