Flame Emission Spectroscopy

Flame emission spectroscopy is a technique used to analyse metal ions in solution
When substances are heated they often emit energy in the form of light
This is due to electrons falling back to their original energy levels after becoming excited which causes them to jump up one or more energy levels
Flame emission spectroscopy works by exposing the sample to a very hot flame and then measuring the intensity and wavelength of the light emitted
The output is an emission spectrum in which different elements produce lines in different parts of the spectrum
The emission spectrum consists of brightly coloured thin lines on a dark background and each element ion produces a unique spectrum
Flame emission spectroscopy also works for mixtures of ions
This is a major advantage over flame testing which can only analyze one ion at a time
The intensity of the light produced is proportional to the number of ions vaporised, so the technique can be used to determine the concentration of metal ions in a solution by reference to a standard solution of known concentration

Ions in unknown samples can be identified by comparing the sample spectrum to reference spectra
This is particularly useful if the sample contains a number of different ions
The following flame spectrum for example was obtained for a solution containing an unknown metal: