A plasma can be created using many gases. Argon is usually preferred because of its characteristics. As all noble gases, it is mono-atomic, chemically inert and its ionization energy is high (15.76 eV). The use of Argon has many advantages:
Spectrum emitted is simple, leading to little spectral interference
Capability to atomize, excite and ionize most of the elements of the periodic table
No formation of stable compounds with other elements
Lower cost than other eligible noble gas, such as Helium, as it is more widespread (1% in air)
Its only limitation is its low thermal conductivity that may also be an advantage, simplifying the design of instruments. Some instruments using Helium or air have been designed in the past. The high cost of Helium and the drawbacks of air with a complex spectrum emitted, the formation of stable compounds with elements and its lower ionization energy have limited the use or the performance of such instruments.
The useful wavelength range for ICPOES measurements
All relevant information for elemental analysis is in the 120-800 nm wavelength range. Some instruments can only access the 160-800 nm range, limiting the range of applications that can be addressed by ICP-OES. The 120-160 nm range is particularly helpful for halogen analysis or for alternative lines in some special applications.