Selenium is a gray, metallic element. Its atomic number is 34 and its symbol is Se. The Swedish scientist Jons Jacob Berzelius discovered selenium in 1817. In studying the sulfuric acid produced in a particular Swedish factory, he discovered an impurity which he eventually identified as selenium. Selenium occurs in three distinct forms: as a non-crystalline, gray metal; it can form as a deep red to black powder; and it can form as red crystals. It is stable in air and in water. Selenium is actually an important trace element to mammals and some plants. Too much selenium in a mammal’s diet is poisonous and has been shown to cause deformities. When there is not enough selenium, a mammal can also have health problems. For example, sheep that graze in areas with too little selenium in the soil eventually have a problem known as “white muscle disease.” Lack of selenium has also been connected to strokes in humans. The percentage amount of selenium in a healthy human is 0.00002 %.
|Previous Element: Arsenic
Next Element: Bromine
|Phase at Room Temp.||solid|
|Melting Point (K)||490.2|
|Boiling Point (K)||958|
|Heat of Fusion (kJ/mol)||5.1|
|Heat of Vaporization (kJ/mol)||---|
|Heat of Atomization (kJ/mol)||227|
|Thermal Conductivity (J/m sec K)||0.52|
|Electrical Conductivity (1/mohm cm)||0|
|Source||Cu smelting by-product|
|Number of Isotopes||6|
|Electron Affinity (kJ/mol)||194.97|
|First Ionization Energy (kJ/mol)||940.9|
|Second Ionization Energy (kJ/mol)||2044.5|
|Third Ionization Energy (kJ/mol)||2973.7|
|Atomic Volume (cm3/mol)||18.4|
|Ionic Radius2- (pm)||184|
|Ionic Radius1- (pm)||---|
|Atomic Radius (pm)||119|
|Ionic Radius1+ (pm)||---|
|Ionic Radius2+ (pm)||---|
|Ionic Radius3+ (pm)||---|
|Common Oxidation Numbers||-2,+2|
|Other Oxid. Numbers||+4, +6|
|In Earth's Crust (mg/kg)||5×10-2|
|In Earth's Ocean (mg/L)||2×10-4|
|In Human Body (%)||0.00002%|
|Regulatory / Health|
|CAS Number||7782-49-2 powder|
|OSHA Permissible Exposure Limit (PEL)||TWA: 0.2 mg/m3|
|OSHA PEL Vacated 1989||TWA: 0.2 mg/m3|
|NIOSH Recommended Exposure Limit (REL)||TWA: 0.2 mg/m3
IDLH: 1 mg/m3
University of Wisconsin General Chemistry
Mineral Information Institute
Jefferson Accelerator Laboratory
Selenium was named after the Greek word selene, meaning moon. This is a reference to the silvery-gray color of metallic, non-crystalline selenium. There is a mineral called selenite which is also named after the word selene; however, selenite does not contain selenium.
Minerals containing selenium are very uncommon. Rarely, ores that contain high concentrations of selenium have been discovered. Most selenium is recovered as a by-product of processing copper ores. This appears to be the only affordable source of selenium. It is estimated that the copper deposits that are yet to be discovered will produce 2.5 times the amount of selenium in the presently known copper ores. Continued search and research will therefore lead to the discovery not only of future copper ores, but also of the selenium found within them.
Currently, less than one-fifth of the refined selenium production comes from recycling. Almost all of this recycling is of selenium-containing photo-receptors used in photo copiers.
The nations producing selenium include the United States, Belgium, Canada, Chile, Germany, Japan, Sweden, Philippines, Finland, Peru, Zambia, and other countries. The United States imports selenium, primarily from Canada, Philippines, Belgium, Japan, and other nations.
Selenium is known as a photovoltaic substance. This means that it converts light energy directly into electricity. It also displays what is called a photoconductive action, in which electrical conductivity increases as more and more light shines on the selenium. These unique features make selenium useful for photocells used to power everything from hand held calculators to large-scale photocells used to convert sunlight into electrical energy which is then stored in batteries.
Selenium has other interesting electrical properties. It can be used in devices to convert alternating current (AC) electricity to direct current (DC) electricity. Therefore, selenium is used in special electrical converters where an AC power supply must be changed into a DC current. These special converters are called rectifiers. Ultimately, less than one-fifth of the selenium consumed annually is used in these various electrical applications.
Even more selenium is used in the production of glass. It is used to remove the color from the glass used to make bottles. It is used in specialized sheet glass for windows where it reduces the amount of heat that enters a building from sunlight. The glass industry consumes more than one-third of the selenium used each year.
It is also used to make a variety of chemicals and pigments. This accounts for about one-fifth of the annual selenium consumption.
The remainder is used in a variety of applications. At one time, selenium was important in the manufacture of the drums in copying machines that transfer the image to the paper (newer copiers no longer use selenium on the image drum). It is also used in anti-dandruff shampoos, steel alloys, human dietary supplements, and rubber production.
Substitutes and Alternative Sources
Newer technologies are replacing some of the applications of selenium. For instance, high purity silicon is now being used in the production of rectifiers (see Uses above). Other elements are being used in the photoelectric applications. Cerium oxide is being used in glass production in place of selenium. Coal deposits contain 1.5 parts per million selenium. This is 80 times the amount of selenium found in copper deposits! Unfortunately, a method of removing this selenium from coal has not been developed. This could prove to be a significant source of selenium should technology advance.
- Common Minerals and Their Uses, Mineral Information Institute.
- More than 170 Mineral Photographs, Mineral Information Institute.
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