|Atomic Number:||10||Atomic Radius:||154 pm (Van der Waals)|
|Atomic Symbol:||Ne||Melting Point:||-258.59 °C|
|Atomic Weight:||20.18||Boiling Point:||-246.046 °C|
|Electron Configuration:||[He]2s22p6||Oxidation States:||0|
From the Greek word neos, new. Discovered by Ramsay and Travers in 1898. Neon is a rare gaseous element present in the atmosphere to the extent of 1 part in 65,000 of air. It is obtained by liquefaction of air and separated from the other gases by fractional distillation.
Natural neon is a mixture of three isotopes. Six other unstable isotopes are known.
Neon is a very inert element, however, it has been reported to form a compound with fluorine. It is still questionable if true compounds of neon exist, but evidence is mounting in favor of their existence. The ions, Ne+, (NeAr)+, (NeH)+, and (HeNe+) are known from optical and mass spectrometric studies. Neon also forms an unstable hydrate.
In a vacuum discharge tube, neon glows reddish orange.
It has over 40 times more refrigerating capacity per unit volume than liquid helium and more than three times that of liquid hydrogen. It is compact, inert, and is less expensive than helium when it meets refrigeration requirements.
Of all the rare gases, the discharge of neon is the most intense at ordinary voltages and currents.
Although neon advertising signs account for the bulk of its use, neon also functions in high-voltage indicators, lightning arrestors, wave meter tubes, and TV tubes. Neon and helium are used in making gas lasers. Liquid neon is now commercially available and is finding important application as an economical cryogenic refrigerant.