AQA Chemistry A-Level 3.3.16: Chromatography Detailed Notes PDF

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This document is detailed notes on chromatography for AQA Chemistry A-Level. It covers various chromatography methods like thin-layer chromatography (TLC), column chromatography, and gas chromatography. It also touches on GC-MS.

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AQA Chemistry A-level

3.3.16: Chromatography
Detailed Notes

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3.3.16.1 - Chromatography

Chromatography is an ​analytical technique​ used to separate and identify component
molecules of a mixture. It uses a ​mobile phase ​and a ​stationary phase​.

Mobile and Stationary Phases
The mobile phase is a substance that allows molecules to ​move over or through​ the stationary
phase. It can be in the form of a ​liquid or a gas​ depending on the type of chromatography
being carried out. ​More soluble​ products ​move further​ with the mobile phase.
The stationary phase is a substance that has ​affinity​ to molecules in the mixture being
analysed. The ​greater the affinity​ of a molecule to the stationary phase, the ​shorter the
distance​ it moves with the mobile phase.

Rf Values
This is a value that is unique to each different component molecule in the mixture being
analysed. It is calculated by comparing the ​distance moved by the mobile phase​ ​and the
molecule​.
Example:

There are four main types of chromatography that use different mobile and stationary phases to
obtain Rf values for the molecules present.

Thin-Layer Chromatography
In this method of chromatography, a ​metal plate​ is coated with a ​thin layer of silica​ and
solvent moves up the plate. The plate is then dried in a fume cupboard to reduce toxic fumes.
The chemical traces can then be viewed using a ​UV lamp​ and the distances travelled can be
measured. Alternatively, a ​developing agent​ can be added, such as ​iodine​, to allow the traces
to be seen by the naked eye.
Example:

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Column Chromatography
For this method, a ​vertical column​ is packed with a ​solid, powdered substance​ which acts as
the stationary phase. A ​solvent​ containing the mixture being analysed is then added and moves
down the column as the mobile phase.

Example:

The varying affinities of the molecules present means they ​drain out of the column at
different times​, allowing them to be collected as ​separate samples​. The time taken to drain
out of the column like this is measured as the ​retention time​. Similar to Rf values, retention
times allow the individual molecules in the mixture to be identified.

Gas Chromatography
In this form of chromatography, a ​thin tube ​is packed with a ​solid, powdered substance​ which
acts as the stationary phase. Instead of a solvent, a ​high pressure gas​ is passed through this
tube as the mobile phase. This method is used to separate mixtures of ​volatile liquids​ which
are fed into the gas chromatography machine as vapours.
Example:

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The analysis machine ​records a retention time​ for each component molecule in the mixture,
allowing them to be identified.

GC-MS
This is a ​combination​ of analytical techniques, ​gas chromatography and mass
spectrometry​, allowing for a more advanced level of molecule analysis. The molecules present
are first separated using the gas chromatography technique. Then each molecule present is fed
directly into a mass spectrometer so it can be accurately identified.

Example:

GC-MS is a ​much​ ​faster​ analytical process that produces ​more accurate​ results for molecule
analysis and identification.

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