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Cerium [Ce]
CAS-ID: 7440-45-1
An: 58 N: 82
Am: 140.116 g/mol
Group Name: Lanthanoids
Block: f-block  Period: 6 (lanthanoid)
State: solid at 298 K
Colour: silvery white Classification: Metallic
Boiling Point: 3633K (3360°C)
Melting Point: 1068K (795°C)
Superconducting temperature: 0.022K (-273.128°C)
Density: 6.770g/cm3
Discovery Information
Who: W. von Hisinger, J. Berzelius, M. Klaproth
When: 1803
Where: Sweden/Germany
Name Origin
From the asteroid Ceres discovered in 1801.
 "Cerium" in different languages.
Sources
Most abundant rare earth metal. Found in many minerals like monazite [Ce(PO4)].
Main producers are the USA, Brazil, India, Sri Lanka, Australia and China. World production is around 24 thousand tons per year.
Abundance
 Universe: 0.01 ppm (by weight)
 Sun: 0.004 ppm (by weight)
 Carbonaceous meteorite: 0.76 ppm
 Earth's Crust: 68 ppm
 Seawater:
   Atlantic surface: 9 x 10-6 ppm
   Atlantic deep: 2.6 x 10-6 ppm
   Pacific surface: 1.5 x 10-6 ppm
   Pacific deep: 5 x 10-7 ppm
Uses
Used in alloys to make them heat-resistant, it is also used in alloys that make permanent magnets.
Cerium is used as an alloying element in tungsten electrodes for gas tungsten arc welding.
Cerium compounds are used in the manufacture of glass, both as a component and as a decolouriser.
History
Cerium was discovered in Bastnas in Sweden by Jöns Jakob Berzelius and Wilhelm Hisinger, and independently in Germany by Martin Heinrich Klaproth, both in 1803. Cerium was so named by Berzelius after the dwarf planet Ceres, discovered two years earlier (1801). As origninally isolated, cerium was in the form of its oxide, and was named "ceria", a term that is still used. The metal itself was too electopositive to be isolated by then-current smelting technology, a characteristic of "earths" in general. But the development of electrochemistry by Humphrey Davy was only five years into the future, and then the earths were well on their way to yielding up their contained metals. Ceria, as isolated in 1803, contained all of the lanthanoids present in the cerite ore (Ce9Fe(SiO4)6(SiO3)(OH)3) from Bastnaes, Sweden, and thus only contained about 45% of what is now known to be pure ceria. It was not until Mosander succeeded in removing lanthana and "didymia" in the late 1830s that ceria was obtained pure. As an historical aside: Wilhelm Hisinger was a wealthy mine owner and amateur scientist, and sponsor of Berzelius. He owned or controlled the mine at Bastnaes, and had been trying for years to find out the composition of the abundant heavy gangue rock (the "Tungstein of Bastnaes") now known as cerite that he had in his mine. Mosander and his family lived for many years in the same house as Berzelius, and was undoubtedly persuaded by the latter to investigate ceria further.
When the rare earths were first discovered, since they were strong bases like the oxides of calcium or magnesium, they were thought to be divalent. Thus, "ceric" cerium was thought to be trivalent, and the oxidation state ratio was therefore thought to be 1.5. Berzelius was extremely annoyed, to keep on getting the ratio 1.33. He was after all one of the finest analytical chemists in Europe. But he was a better analyst than he thought, since 1.33 was the correct answer.
Notes
Cerium is the most abundant of the rare earth elements, making up about 0.0046% of the Earth's crust by weight.
Only europium is more reactive than cerium among rare earth elements.
Hazards
All cerium compounds should be regarded as highly toxic. Cerium dust presents a fire and explosion hazard.
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