Chromatography and Separation Techniques PDF

Summary

These lecture notes cover chromatography and separation techniques, focusing on different types such as gas chromatography and high-performance liquid chromatography. The document explains the principles of chromatography, its applications in various fields, and associated terminology.

Full Transcript

Chromatography and
Separation
Techniques
Assoc. Prof. Sameh Younis
Associate Professor of Pharmaceutical Analytical Chemistry

Week 1
 GC
Gas Chromatography

HPLC
High Performance Liquid
Chromatography

2
3
 What is Chromatography?
Chromatography is a technique for separating mixtures

into their components in order to analyze, purify, identify,

and/or quantify the mixture or components.
Analyze
Separate Identify
Purify
Quantify
Mixture Components

4
Chromatography is used by scientists to:

Analyze – examine a mixture, its components, and their
relations to one another

Identify – determine the identity of a mixture or
components based on known components

Purify – separate components in order to isolate one of
interest for further study

Quantify – determine the amount of the a mixture and/or
the components present in the sample 5
 Definition of Chromatography
Greek words---- Khroma: color, Graphein: to write
Separation, identification and quantification
Russian botanist (Tswett)---- father of
chromatography
petroleum ether

chalk
*- Stationary Phase (column) (Fixed)(Retarder)
*- Mobile Phase (M.P.) (Movable)(Carrier).
Different affinities------ different migration rates
High affinity to S.P----- late elution ,moves slowly with MP
Low affinity to S.P-----early elution ,moves rapidly with MP
 Definition of Chromatography

Explanation:
Compound is placed on stationary phase
Mobile phase passes through the stationary phase
Mobile phase carries the individual components with a
certain speed through the stationary phase, depending on
their attraction to both of the phases.

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Illustration of Chromatography
Stationary
Phase

Separation

Mobile
Mixture Phase
Components
Affinity to Mobile
Components Affinity to Stationary Phase
Phase
Blue ---------------- Insoluble in Mobile Phase

Black ✓✓✓✓✓✓ ✓✓

Red ✓✓ ✓✓✓✓✓

Yellow ✓ ✓✓✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ ✓ 8
 Uses for Chromatography
Real-life examples of uses for chromatography:
Pharmaceutical Company – determine amount of each
chemical found in new product
Hospital – detect blood or alcohol levels in a patient’s
blood stream
Law Enforcement – to compare a sample found at a crime
scene to samples from suspects “forensic medicine
authority” “FMA”
Environmental Agency – determine the level of pollutants
in the water supply
Manufacturing Plant – to purify a chemical needed to
make a product 9
Classification of chromatography
I- According to Mobile phase

A- Gas chromatography

*Gas – solid chromatograph “CSC”

*Gas– liquid chromatograph “GLC”

B- Liquid chromatography

*liquid– liquid chromatography “LLC”

*liquid- solid chromatography”LSC”

C- Supercritical fluid chromatography
* Liquid Chromatography:
Separation in liquid chromatography is based on interaction

of the sample with the liquid mobile phase & the stationary
phase.

Compounds to be analyzed are dissolved in an liquid, & most
separations take place at room temperature. Thus most drugs, being
non-volatile or thermally unstable compounds, can be
chromatographed without decomposition.
High Performance liquid chromatography (HPLC) is the most

widely applied technique in liquid chromatography.

11
* Gas Chromatography (GC):
- In gas chromatography the sample is volatilized & transported
by the carrier gaseous mobile phase through the stationary
phase where separation takes place.

- In this respect, residual solvents in drug substances and drug
products are suitable for gas chromatographic analysis.
- -Suitable for stable volatile analytes

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 Classification of chromatography
“II-based on the equipment or stationary phase ”
Planar Chromatography Column Chromatography
SP: on Planar Surface SP: in narrow tube “Column”
“planar surface support” MP: Liquid (LC), Gas(GC)
MP: Liquid & forced by & forced through the column by
capillary action gravity or pressure

1- Open Tubular Column
1- Paper Chromatography SP: Coated on the inner surface
SP: Water adsorbed on filter of the column.
paper
2-Thin-Layer Chromatography 2- Packed Column
SP: Silica or Alumina coated on SP: Finely Divided particles
compressed in column
plastic or glass support
III- According to mechanism of separation
“mech. Of interaction of sample with stationary phase”
i- Adsorption Chromatography (sample interact by adsorption on solid

stationary phase)

ii- Partition Chromatography (stationary and mobile phases are two

immiscible liquids and sample interact with solubilization)

iii- Ion Exchange Chromatography.... Ion exchange stationary phase that

interacts electrostatically

used for separation of charged samples
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 iv- Affinity chromatography
(interaction between biological sample and stationary
phase is specific antigen-antibody reaction)

v- Size or steric exclusion (molecular sieving)
Chromatography
The stationary phase is solid and has controlled pore
size and the sample is screened or filtered according to
its molecular size, there is no interaction between
solute and stationary phase. The large molecules
rapidly washed through the column, the smaller
molecules penetrate inside the pores and elute later.
* Terminolgy
- Eluent: Mobile phase..fluid going to stationary phase
- Eluate: fluid leaving the stationary phase.. fluid carrying analyte
- Elution: movement of mobile phase through stationary phase = Run
- Chromatograph: Equipment used for chromatographic analysis &
separation

- Chromatogram:.Output of a chromatography =Graphical presentation of the
separated analytes by chromatography = Detected Pattern
of separated analytes formed in a chromatography

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