This document discusses column chromatography, a technique used to separate mixtures of compounds. It involves using a stationary phase, typically an adsorbent material like silica gel or alumina, packed into a glass column. A mobile liquid phase is passed through the column, carrying the sample mixture. Components of the mixture are separated based on differences in how strongly they interact with and adhere to the stationary phase. Key factors in column chromatography include selecting an appropriate stationary phase and mobile phase based on the compounds' properties. The document outlines experimental aspects like suitable adsorbents, packing techniques, and applications of column chromatography in separating mixtures.
2. Useful method for the separation and
purification of both solids and liquids .
Solid – liquid technique
stationary phase – solid
Mobile phase – liquid
3. Principle
Adsorption
Mixture of compounds dissolved in
mobile phase is introduced into the
column .
Separation occurs because of the
different rates at which the components
are carried over the stationary phase by
the mobile phase
4. Adsorption column chromatography , the
adsorbent packed in glass column .
Solvent – mobile phase , moves slowly
through the packed column .
Process of dissolving out the
components from the adsorbent using a
suitable solvent is called elution .
This Solvent used as mobile phase –
eluent .
5. Compound attracted more strongly by
the mobile phase will move rapidly
through the column .
Compound more strongly attracted to
the stationary phase will move slowly
through the column
6.
7. EXPERIMENTAL ASPECTS
OF COLUMN
CHROMATOGRAPHY
ADSORBENTS : silica ,alumina, calcium
carbonate , calcium phosphate ,
magnesia and starch
Alumina suitable for chromatography of
less polar compounds .
Silica gel suitable for compounds
containing polar functional groups .
8. ADSORBENTS – CRITERIA
Particles - spherical in shape , uniform in
size
Mechanical stability must be great enough
to prevent the formation of fine dust which
might deposit in the channels of packing .
Don’t react chemically either with eluent or
with sample .
Useful for separating wide variety of
compounds.
Inexpensive and freely available
9. SELECTION OF STATIONARY
PHASE
Removal of impurities
Number of components to be separated
Length of column used
Affinity difference between compenents
Quantity of adsorbent used
10. SELECTION OF MOBILE
PHASE
Acts as solvent , developer and eluent
As developing agent
To remove pure component out of the
column – as eluent
Based on solubility – solvent selection
Polarity – important factor
11. DIFFERENT MOBILE PHASE
USED
Petroleum ether
Carbon tetrachloride
Cyclohexane
Ether
Ester
Acetone
Benzene
Water
12. COLUMN CHARACTERISTICS
Support stationary phase
Column must be of good quality –
neutral glass
column dimensions : length and
diameter ratio (10:1)
Better separation : long narrow column
because number of plates will be more.
13. PREPARTION OF
COLUMN
Consists of glass tube with bottom
portion of the column – packed with
cotton / glass wool
Above which adsorbent is packed .
After packing , paper disk is kept on the
top , so that the adsorbent layer is not
disturbed during the introduction of
mobile phase .
14.
15. PACKING TECHNIQUES OF
ADSORBENTS
DRY PACKING
WET PACKING
THE PROCESS
An adsorbent column is prepared by packing
a long glass tube with suitable adsorbent
solution of the mixture of the components
(say a,b,c) in suitable solvents is introduced
at the top of the column .
16. It percolates through the adsorbent column ,
different components adsorbed to different
extend .
Most readily adsorbed constituent(say a) is
held at the top .
Other (say b and c) of decreasing
adsorbabilities are held up at different zones
or bands down the column in the same order
[say b and then c]
This partial separation is improvised by
adding some amount of original solvent –
development of chromatogram.
17. Individual components are extracted from the
adsorbent by a suitable solvent(eluent).
Most weakly adsorbed component (c)
emerges first which is at the bottom of the
column .
Most strongly adsorbed one (a ) comes out
last which was at the top of the column .
Pure components are then recovered by
removing the solvent by suitable method .
18. APPLICATIONS
Used for separation of two or more similar
organic components of a mixture
Identification , separation and purification of
natural products.
Used for identification of various industrial
products
Separation of protein mixture.
19. Advantages of CC
Any type and any quantity of mixture can be
separated .
Wider choice of mobile phase
DISADVANTAGES OF CC
Time consuming
More amount of mobile phase is required .