Tellurium Element FactsData Zone |

Tellurium Element Facts
Data Zone | Discovery | Facts | Appearance & Characteristics | Uses | Abundance & Isotopes | References


Crystalline tellurium.
Crystalline tellurium. Image by Dschwen. (1)

52
Te
127.6
Data Zone
Classification: Tellurium is a chalcogen and a metalloid
Color: silvery
Atomic weight: 127.60
State: solid
Melting point: 450 oC, 723 K
Boiling point: 990 oC, 1263 K
Electrons: 52
Protons: 52
Neutrons in most abundant isotope: 78
Electron shells: 2,8,18,18,6
Electron configuration: [Kr] 4d10 5s2 5p4
Density @ 20oC: 6.24 g/cm3
Show more, including: Heats, Energies, Oxidation, Reactions, Compounds, Radii, Conductivities
Calaverite
The mineral ore calaverite. Calaverite is also known as gold telluride, AuTe2. It is the mineral tellurium was discovered in. Image by Robert Lavinsky. (2)

Discovery of Tellurium
In the 1700s, scientists were confused by a substance found in various ores.

Although they could not isolate the substance, the properties of the ores seemed to indicate that that the substance had both metallic and non-metallic properties.

They called the new substance ‘aurum paradoxum’ meaning paradoxical/illogical gold or ‘metallum problematum’ meaning problem metal.

In 1782, Austro-Hungarian mineralogist Baron Franz Muller von Reichenstein purified a substance, which he believed to contain antimony, from a Transylvanian gold ore. (We now know this ore was actually gold telluride, AuTe2, often known as calaverite.)

Muller came to believe that his initial thoughts were wrong and that he might be dealing with a new element. (3)

He sent a small sample to Torbern Bergman in Uppsala, Sweden, who replied in April 1784, agreeing that the substance did not contain antimony. Bergman asked for more samples so that he could study the substance further, but he died in July of that year. (4)

Twelve years later, Muller sent a sample to Martin H. Klaproth in Berlin, who isolated the tellurium. In 1798, Klaproth publicly confirmed the existence of a new element in the sample sent to him by Muller.

Klaproth named the new element tellurium. The name comes from the Latin word ‘tellus’ meaning Earth.

It took a further 34 years for the chemistry of tellurium to be investigated. In 1832, in Stockholm, Sweden, Jons Jacob Berzelius made a detailed study of the element and its compounds. He decided that tellurium was a metal, but belonged in the same group as the nonmetals sulfur and selenium due to the similarities of their compounds. (5)

We now class tellurium as a metalloid because, as the confused scientists of the 1700s first noticed, it has properties that sit between those of metals and nonmetals.

Tellurium
Hubble Telescope Wide Field Camera 3. The crystalline photosensitive surface of the camera’s near-infrared detector is composed of mercury, cadmium and tellurium (HgCdTe). (NASA)


Tellurium’s Periodic Table Neighborhood
Group 15 Group 16 Group 17
Row 4 33
As 34
Se
35
Br
Row 5 51
Sb 52
Te 53
I
Row 6 83
Bi 84
Po 85
At
Tellurium is a metalloid. It sits in the periodic table on the boundary between metals and nonmetals. Its behavior also sits between that of metals and nonmetals.

Cadmium Telluride Solar Panels

Cadmium telluride (CaTe) is used as a thin film in solar panels, converting sunlight to electricity. These solar panels are more efficient than amorphous silicon alternatives. Image from NREL.





Appearance and Characteristics
Harmful effects:

Tellurium is very toxic and teratogenic (can cause harm to developing embryos). Exposure to as little as 0.01 mg/m2 or less in air leads to “tellurium breath”, which has a garlic-like odor.

Characteristics:

Tellurium is a rare, silvery-white, brittle, lustrous metalloid.

It burns in air with a greenish-blue flame and forms white tellurium dioxide (TeO2).

When present in compounds, tellurium exists mostly in the oxidation state IV and VI.

Tellurium is a semiconductor material and is slightly photosensitive.

It forms many compounds corresponding to those of sulfur and selenium, the elements above it in the periodic table. For example, it forms tellurides with other metals and tellurite (TeO32-) and tellurate (TeO42-) compounds.

Tellurium has radioactive isotopes and is the lightest element to exhibit alpha decay.


Uses of Tellurium