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GC Advantages
1.
2.
3.
4.
5.
Very Large N (Very Long Columns)
No Packing Material (A=0)
Simple Mobile Phase (Compressed Gas)
Universal Detectors (FID)
Easy to Change k’ (Temperature Program)
GC Limitations
1.
2.
3.
4.
Analytes must be Thermally Stable
Analytes must be Relatively Volatile
MW < 400
Not possible to operate at biological
conditions
If these limitations are not critical, then GC is
probably the BEST means for analyzing a
complex sample
GC Limitations
1.
2.
3.
4.
Analytes must be Thermally Stable
Analytes must be Relatively Volatile
MW < 400
Not possible to operate at biological
conditions
If at least one of these is a serious concern,
then another technique must be employed.
Modern Liquid Chromatography
(post 1969)
HPLC
High Performance Liquid Chromatography
(originally High Pressure Liquid Chromatography)
LIQUID CHROMATOGRAPHY
HPLC INSTRUMENTATION
1.
2.
3.
4.
Mobile Phase Supply
Sample Injector
Column (Stationary Phase)
Detector
HPLC Stack
Configuration
Mobile Phase Supply: Solvent Reservoirs
Mobile Phase Supply: Solvent Reservoirs
To Pump
Mobile Phase Supply:
Syringe Pump
Provides a constant,
smooth, high pressure
flow.
Difficult to mix or
change solvent
(reservoir is inside the
pump)
Mobile Phase Supply:
Reciprocating Pump
Draws solvent(s) from an external
reservoir.
Flow is not as uniform, dissolved
gas can be troublesome.
Pump only works if liquid is in
chamber (must be primed)
Mobile Phase Composition
Reversed Phase ≡ Retention decreases as mobile phase
polarity decreases
Aqueous Mobile Phases
Normal Phase ≡
Retention decreases as mobile phase
polarity increases
Organic Mobile Phases
Advantages of Reversed Phase HPLC
1. Weak Attractive Forces
2. Aqueous mobile phase, sometimes with added liquid
organic modifiers (MeOH, Acetonitrile), dissolved salts,
and/or buffers.
3. Wide scope: may separate polar, non-polar, ionizeable,
and ionic compounds (perhaps at the same time).
4. Elution occurs in order of decreasing polarity (but not at
predictable as GC Retention Index).
Mobile phase: Water + % MeOH + 0.5% H3PO4
Effect of Organic Modifiers
(separation of common analgesics)
Mobile phase: 20 mM KH2PO4 : acetonitrile (95:5)
Effect of pH
(separation of sulfa drugs)
Isocratic:
constant 0.055 M
sodium nitrate
Separation of aromatic
carboxylic acids
Gradient:
0.01 to 0.1 M sodium
nitrate in 25 min
Separation of amino acids with
pH Gradient Elution
Sample Injection
Sample Injection
Auto-injection
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