Strontium

Atomic number

38

Atomic mass

87.62 g.mol ^-1

Electronegativity

1.0

Density

2.6 g.cm^-3 at 20°C

Melting point

769 °C

Boiling point

1384 °C

Vanderwaals radius

0.215 nm

Ionic radius

0.113 nm (+2)

Isotopes

14

Electronic shell

[ Kr ] 5s²

Energy of first ionisation

549.2 kJ.mol ^-1

Energy of second ionisation

1064 kJ.mol ^-1

Discovered by

A. Crawford in 1790

Strontium is a soft, silver-yellow, alkaline-earth metal. It has three allotropic crystalline forms and in its physical and chemical properties it is similar to calcium and barium. Strontium reacts vigorously with water and quickly tarnishes in air, so it must be stored out of contact with air and water. Due to its extreme reactivity to air, this element always naturally occurs combined with other elements and compounds. Finely powdered strontium metal will ignite spontaneously in air to produce both strontium oxide and strontium nitride.

Applications

Strontium has uses similar to those of calcium and barium, but it is rarely employed because of its higher cost. Principal uses of strontium compounds are in pyrotechnics, for the brilliant reds in fireworks and warning flares and in greases. A little is used as a getter in vacuum tubes to remove the last traces of air. Most strontium is used as the carbonate in special glass for television screens and visual display units. Although strontium-90 is a dangerously radioactive isotope, it is a useful by-product of nuclear reactors from whose spent fuel is extracted. Its high-energy radiation can be used to generate an electric current, and for this reason it can be used in space vehicles, remote weather stations and navigation buoys.