CHROMATOGRAPHY 363Gas chromatography (GC)
Gas chromatography (GC) is used for checking the purity or identity of volatile
liquid samples. In most experiments small quantities of sample are used and
mixtures are separated, and the components identified, rather than collected. The
sample is injected into the instrument, vaporized and carried in a stream of carrier
gas (helium or nitrogen) on to a chromatography column. The components of the
sample move through the column at different rates and reach a detector at different
times. When a component hits the detector an electric signal is sent to a chart
recorder, or VDU, which produces a graph, or chromatogram, of the different com-
ponents passing through the detector. The time taken for a compound to pass
through the apparatus and reach the detector is called the compound’s retention
time. The retention times of the components of a mixture can be compared with the
retention times of known compounds obtained under the same conditions. In this
way, the components of the mixture may be identified. The trace produced for each
component also gives a rough idea of the relative quantity of the component. The
areaunder each peak (notthe height of the peak) is proportional to the percentage of
that component present in the sample.
The chromatograph in the diagram (Fig. 19.21) shows three peaks. One of these
Fig. 19.21Gas chromatogram.TheRfvalue is constant for a compound, on the same plate, if the temperature and
solvent are kept the same. If a spot from an unknown substance is developed on a TLC
plate together with a spot from a substance that is suspected to be the unknown, and
the two substances are found to have the same Rfvalue, they are probably the same
substance. A substance that just produces one spot when subjected to TLC is pure.
Rfvalues
Using the diagram of a TLC plate below,
write expressions, involving x,yandz, for:(i)theRfvalue for component A;(ii)theRfvalue for component B.Exercise 19D