The Element Selenium
Selenium is an interesting element with a wide variety of uses. For example, it is a vital micronutrient, excellent photoconductor, and great catalyst for chemical reactions. Learn more about this unique nonmetal down below!
Cool Facts About Selenium
- Selenium is named after the Greek goddess of the moon, Selene.
- Selenium salts are often used to combat mercury poisoning and dandruff.
- The element is often produced as a byproduct of copper refining.
- It has many different allotropes and they interconvert depending on temperature.
- The element is also an essential micronutrient for animals but is toxic in large doses.
Unique Properties of Selenium
Selenium can be found in group sixteen on the periodic table. As a chalcogen, it shares similar properties to tellurium and sulfur. It has five allotropic forms which can be divided into three types: red Se, gray Se, and black Se. Traditionally, selenium is classified as a nonmetal, but some of its allotropes feature metalloid characteristics. Due to its semiconductor abilities, it has been used for almost a century to rectify circuits. Additionally, it is photoconductive and photovoltaic which means the presence of light increases the production/conduction of electricity. For this reason, it is often used in electronics such as photocells and solar cells.
Allotropes of Selenium
Selenium has three main allotropic forms: red Se, gray Se, and black Se. The normal state for the element is red Se and it appears as a red amorphous powdery substance. When heated rapidly, it becomes black Se. This vitreous allotrope is both physically brittle and lustrous. On the other hand, when red Se is heated slowly, it forms gray Se. Moreover, the red and black allotropic forms are great insulators, whereas gray Se is a great semiconductor. Gray Se is also the most stable form while red Se is the most reactive.
Selenium in Real Life
Staining Glass with Selenium
Around 1910, the use of selenium in creating glassware began to become more common. As of now, it is the largest commercial use of the element and comprises about 50% of its consumption. In small concentrations, selenium produces a pink color which is used to decolorize glass by offsetting the green/yellow tint that is often created by iron impurities. Typically, selenite and selenate salts are used for this. On the other hand, large concentrations can create a nice red tint on the glass. The compound used for this is often cadmium selenide.
Cancer versus Selenium
Though the research is technically still inconclusive, there has been a long-held debate on whether selenium intake and cancer have any correlation. Selenium is an essential trace element and too much or too little exposure to this mineral can be detrimental to the wellbeing of an individual. In the 1960s, various observational studies were conducted and concluded an inverse relationship where increased consumption of selenium led to a reduced risk of blood cancer. However, more recent studies have challenged this idea. Instead, they are now suggesting that high consumption has the potential to increase the risk of certain cancers such a colon cancer. In the end, research for the relationship between cancer and selenium is still inconclusive.
History of Selenium
Selenium was discovered in 1817 by Jöns Jacob Berzelius. It all started when the sulfuric acid factory he partially owned has a sudden spur in illness among its workers. Ultimately, it was discovered that a particular substance had contaminated the chemical solution. Berzelius hypothesized the contamination had occurred due to impurities within the newly imported ores. The substance shared properties similar to both tellurium and sulfur but was ultimately determined to be a new element. Berzellious’s friend, Martin K had discovered the element tellurium and named it after the goddess of the earth. To match this, Berzelius named this new element selenium, after the Greek goddess of the moon, Selene.
Although selenium wasn’t officially discovered until the 19th century, it is believed it was known beforehand. For example, Arnold of Villanova, a medieval spanish alchemist, once referenced a mystery substance in his writing and dubbed it “red sulfur”. This is believed to have been selenium because its most common allotrope is an amorphous red substance and it has properties similar to that of sulfur. Moreover, American biochemist Thressa Stadtman paved the path for selenium research by identifying the elements’ various biological significances.
Selenium – compounds, reactions, synthesis and oxidation states
Because it is a fairly reactivity element, selenium is often used as a catalyst in chemical reactions. It most easily combines hydrogen and halogens such as fluorine, chlorine, and bromine. Moreover, it reacts with nitric and sulphuric acids. It will also react with many different metals to form compounds called selenides.
When forming compounds, selenium likes to form acids in higher oxidation states. Common oxidation states of selenium compounds are -2, +4, and +6. These compounds are often toxic in large quantities. Additionally, selenium can react with most metals to form selenides. An example of this is aluminum selenide, which is a precurser to hydrogen selenide. It also likes to combine with oxygen to form selenium dioxide. When this compound reacts with water, it forms selenious acid. Many selenium compounds feature oxygen and a halogen attached.
Synthesis of Selenium
Although rare, selenium exists in nature as the minerals selenide, selenate, and selenite. The element can also be found in amino acids such as selenomethionine, selenocysteine, and methylselenocysteine. However, more often than not, selenium is produced from selenide in sulfide ores like copper and nickel. In fact, it is often produced as a byproduct of copper refining. Here, selenium dioxide is produced as sodium carbonate is oxidized. When this compound is combined with water, it is acidified into selenous acid. With the help of sulfur dioxide, elemental selenium is produced.
Selenium oxidation states
The oxidation states for this element are Se-2, Se+6, Se+4.
- Melting point: 221 °C
- Boiling point: 685 °C
- Density: 4.79 g/mL
- Atomic weight: 78.96 g/mol
- Atomic number: 34
- Electronegativity: 2.4
- Classification: Metalloid, Group 16 metal, Chalcogen
- Crustal Abundance: 0.05 ppm
- Electron shell configuration: [ Ar ] 3d10 4s2 4p4
- Isotopes : 9 total, 4 are radioactive
- Found naturally in the minerals clausthalite, naumannite, and selenium.
- Toxicity: Selenium toxicity occurs from excessive ingestion.
Where can I buy Selenium?
You can purchase selenium nearly anywhere in the form of supplements. However, for laboratory purposes, selenium can be purchased from specialty shops for about 2.5 cents a gram.