Hydrogen telluride explained

Hydrogen telluride is the inorganic compound with the formula H2Te. A hydrogen chalcogenide and the simplest hydride of tellurium, it is a colorless gas. Although unstable in ambient air, the gas can exist long enough to be readily detected by the odour of rotting garlic at extremely low concentrations; or by the revolting odour of rotting leeks at somewhat higher concentrations. Most compounds with Te–H bonds (tellurols) are unstable with respect to loss of H2. H2Te is chemically and structurally similar to hydrogen selenide, both are acidic. The H–Te–H angle is about 90°. Volatile tellurium compounds often have unpleasant odours, reminiscent of decayed leeks or garlic.[1]

Synthesis

Electrolytic methods have been developed.[2]

H2Te can also be prepared by hydrolysis of the telluride derivatives of electropositive metals.[3] The typical hydrolysis is that of aluminium telluride:

Al2Te3 + 6 H2O → 2 Al(OH)3 + 3 H2Te

Other salts of Te2− such as MgTe and sodium telluride can also be used. Na2Te can be made by the reaction of Na and Te in anhydrous ammonia.[4] The intermediate in the hydrolysis,, can be isolated as salts as well. NaHTe can be made by reducing tellurium with .[4]

Hydrogen telluride cannot be efficiently prepared from its constituent elements, in contrast to H2Se.[2]

Properties

is an endothermic compound, degrading to the elements at room temperature:

→ + TeLight accelerates the decomposition. It is unstable in air, being oxidized to water and elemental tellurium:[5]

2 + → 2 + 2 Te

It is almost as acidic as phosphoric acid (Ka = 8.1×10−3), having a Ka value of about 2.3×10−3.[5] It reacts with many metals to form tellurides.[6]

See also

Notes and References

  1. Greenwood, N. N.; & Earnshaw, A. (1997). Chemistry of the Elements (2nd Edn.), Oxford:Butterworth-Heinemann. .
  2. F. Fehér, "Hydrogen Telluride" in Handbook of Preparative Inorganic Chemistry, 2nd Ed. Edited by G. Brauer, Academic Press, 1963, NY. Vol. 1. pp. 438.
  3. Shriver, Atkins. Inorganic Chemistry, Fifth Edition. W. H. Freeman and Company, New York, 2010; pp 407.
  4. Book: Tellurium in organic synthesis. Best synthetic methods. Nicola Petragnani. Hélio A. Stefani. 2nd. Academic Press. 2007. 978-0-08-045310-1. 6.
  5. Book: Inorganic chemistry. Egon Wiberg. Arnold Frederick Holleman. Nils Wiberg. Mary Eagleson. Academic Press. 2001. 0-12-352651-5. 589.
  6. Book: A treatise on chemistry. 1. Henry Enfield Roscoe. Carl Schorlemmer. Appleton. 1878. 367–368.