Gas chromatography latest ppt
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Transcript of Gas chromatography latest ppt
Chromatography (Gas Chromatography)
Presented By:-
Ruta Satoskar &
Suman Muthu
THE CHROMATOGRAPHIC PROCESS - PARTITIONINGTHE CHROMATOGRAPHIC PROCESS - PARTITIONING
(gas or liquid)MOBILE PHASEMOBILE PHASE
STATIONARY PHASESTATIONARY PHASE
Sampleout
Samplein
(solid or heavy liquid coated onto a solid or support system)
Original Chromatography ExperimentOriginal Chromatography Experiment
Later
An EtOH extractof leaf pigments is applied to the top of the column.
EtOH is used to flush the pigments down the column.
Common Types of Chromatography
Tswett’s technique is based on Liquid Chromatography. There are now several common chromatographic methods. These include:1. Paper Chromatography2. Thin Layer Chromatography (TLC)3. Liquid Chromatography (LC)4. High Pressure Liquid Chromatography (HPLC)5. Ion Chromatography6. Gas Chromatography (GC)
How Does Chromatography Work?
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K = distribution coefficient or partition ratio K
C S C M
Where CS is the molar concentration of the solute in the stationary phase and CM is the molar concentration in the mobile phase.
Cross Section of Equilibrium in a column.“A” are adsorbed to the stationary phase.“A” are traveling in the mobile phase.
Equation for Partition RatioEquation for Partition Ratio
Gas ChromatographyGas Chromatography
• The father of modern The father of modern gas chromatography is gas chromatography is Nobel Prize winner Nobel Prize winner John John Porter Martin,Porter Martin, who also who also developed the first developed the first liquid-gas liquid-gas chromatograph. (1950)chromatograph. (1950)
B.D of G.C.B.D of G.C.
Criteria for Compounds to be Analyzed by G.CCriteria for Compounds to be Analyzed by G.C
1.VOLATILITY.
2.THERMOSTABILITY.
Chromatographic SeparationChromatographic Separation
-Deals with both the -Deals with both the stationary phase stationary phase and and the the mobile phasemobile phase. . • Mobile – inert gas used as carrier.Mobile – inert gas used as carrier.• Stationary – liquid coated on a solid or Stationary – liquid coated on a solid or
a solid within a columna solid within a column..
Chromatographic SeparationChromatographic Separation
• Chromatographic SeparationChromatographic Separation– In the mobile phase, components of the sample In the mobile phase, components of the sample
are uniquely drawn to the stationary phase and are uniquely drawn to the stationary phase and thus, enter this phase at different times. thus, enter this phase at different times. – The parts of the sample are separated within the The parts of the sample are separated within the
column.column.– Compounds used at the stationary phase reach Compounds used at the stationary phase reach
the detector at unique times and produce a the detector at unique times and produce a series of peaks along a time sequenceseries of peaks along a time sequence . .
Chromatographic Separation A(continued)Chromatographic Separation A(continued)
– The peaks can then be read and analyzed by The peaks can then be read and analyzed by a forensic scientist to determine the exact a forensic scientist to determine the exact components of the mixture.components of the mixture.– Retention time is determined by each Retention time is determined by each
component reaching the detector at a component reaching the detector at a characteristic time.characteristic time.
Chromatographic AnalysisChromatographic Analysis
– The number of components in a sample is The number of components in a sample is determined by the number of peaks.determined by the number of peaks.– The amount of a given component in a sample is The amount of a given component in a sample is
determined by the area under the peaks. determined by the area under the peaks. – The identity of components can be determined The identity of components can be determined
by the given retention times.by the given retention times.
GRAPHICAL ANALYSIS
CARRIER GAS
» Hydrogen • Better thermal conductivity• Disadvantage: it reacts with unsaturated compounds
& inflammable» Helium• Excellent thermal conductivity• It is expensive» Nitrogen• Reduced sensitivity• It is inexpensive
Requirements of a carrier gasRequirements of a carrier gas
InertnessSuitable for the detectorHigh purityEasily available CheapShould not cause the risk of fireShould give best column performance
ADVANTAGES OF G.CADVANTAGES OF G.C
1. Very high resolution power, complex mixtures can be resolved into its components by this method.
2. Very high sensitivity with TCD, detect down to 100 ppm
3. It is a micro method, small sample size is required4. Fast analysis is possible, gas as moving phase-
rapid equilibrium 5. Relatively good precision & accuracy6. Qualitative & quantitative analysis is possible
Disadvantages of G.C.
1. The samples analysed are limited to those that are volatile or can be made volatile.
2. The samples must be thermally stable to prevent degradation when heated.
3. Cannot be used to prepare samples for further analysis once separated.
4. Problems can be encountered when injecting the sample
Applications of G.C
• G.C is capable of separating, detecting & partially characterizing the organic compounds , particularly when present in small quantities.
1, Qualitative analysisRt & RV are used for the identification & separation
2, Checking the purity of a compoundCompare the chromatogram of the std. & that of the
sample
Applications of G.C
3, Quantitative analysisIt is necessary to measure the peak area or peak
height of each component
4, Used for analysis of drugs & their metabolites.
The Next Generation in Gas Chromatography