Chapter 4 High Performance Liquid Chromatography (HPLC) - PowerPoint PPT Presentation
Chapter 4 High Performance Liquid Chromatography (HPLC)
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Chapter 4 High Performance Liquid Chromatography HPLC 1952 A.J.Martin and R.L.M.Synge received the Nobel Prize for the discovery of . – PowerPoint PPT presentation
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Title: Chapter 4 High Performance Liquid Chromatography (HPLC)
- In 1941, they wrote
- The mobile phase need not be a liquid but may
be a vapour. We show below that the efficiency of
contact between the phases is far greater in the
chromatogram than in ordinary distillation or
extraction columns. Very refined separation of
volatile substances should therefore be possible
in a column in which a permanent gas is made to
flow over a gel impregnated with a nonvolatile
solvent in which the substances to be separated
approximately obey Raoults law.
- Development of HPLCFrom LC to GC
- From LC to HPLCApplication of HPLC
- Special characters of HPLCHigh pressure
- High FlowHigh performance
- Others
- Types of HPLCChemical-bond (distribution),
Adsorption, Ion exchange, Exclusion
- Equation of Rate-theory of HPLC
- . . . . .
- Fine stationary phase
- big Dm
- Low flow
- Extra-volume of the column
- Temperature
- HPLC
- Chemical-bond phase chromatography
- Ion exchange chromatography
- Exclusion chromatography
- Stagnate
- Isocratic and gradient elution
- Typical HPLC chromatographs
- Pumping and Solvent System
- Sample Injection System
- Columns
- Detectors
- Reason for gradient elusion
- Compared with GC
- Two types of gradient elusion
- Size
- Packing materials
- Packing technology
- UV-detector (. )
- Differential refractive index detector RI
(. )
- Fluorescence Detector (. )
- Electrical conductivity detector (. )
- Single wavelength detector (. )
- Multiwavelength detector (. )
- Photo-diode array detector (. )
- Sample should be UV-absorption
- High sensitivity
- Large linear range
- Suitable for gradient elution
- Most widely used
- Non-specific
- Low-sensitivity
- Easily affected by temperature
- Unsuitable for gradient elution
- High selectivity ( for protein, drug)
- High sensitivity
- Selective to electro-active subject
- Easily affected by some surface-active substances
- Pump
- Valve
- Loop
- Gradient elution
- Refractive index
- Fluorescence
- Cell
- DAD (photodiode array detector)
- Chemically bonded phase HPLC
- Adsorption HPLC
- Ion pair chromatography
- Ion exchange and ion chromatography
- Size exclusion chromatography
- Liquid-liquid Partition chromatography (?-. )
- Normal phase liquid chromatographypolar
stationary phase and less polar or nonpolar
mobile phase
- Reverse phase liquid chromatography Polar mobile
phase and less polar or nonpolar stationary phase
- Disadvantage of the partition chromatography
- Solid phase of chemical-bonded phase Chro.(1)
Reversed phases silica gel surface is modified
with alkyl group(non-polar, such as
n-octadecyl,C18), becoming hydrophobic.
- (2) More about the solid phase of RP-HPLC
- Principle of the retaining of the analyte
- Alkyl group and other groups
- Stability of the solid phase
- (3) Normal phase polar functional groups
chemically modified on the surface of silica
gelThe group could be diol, cyano, amino, etc.
- General rule Mobile phase play an important role
on k Suitable k is between 2 and 5
- Eluotropic seriesPolarity and polarity index of
solventsPolarity of solvent mixtures
- Elution strengthRelationship between polarity of
solvent used as mobile phase and solid
phaseElution behavior of reversed phase
chro. and normal phase chro.
- Other properties of solvent used as mobile
phasechemical stablecompatible to detectorlow
viscosity (??)others (boiling point, toxicity
and expense)
- Strategy of choosing mobile phaseOptimizing k
and a
- through experience or systematic procedure
according to some rules (typical solvents trial).
- In reversed-phase Chro. mixture of the solvents
methanol, acetonitrile and tetrahydrofuran with
water.In normal-phase chro.mixture of diethyl
ether, methylene chloride and chloroform with
n-hexane
- Isocratic elution and Gradient elutionTroubles
of gradient elusion (column, detector and pump)
- Mechanism of the separation
- By using solid absorbent as stationary phase
and solvent as mobile phase, the solute of being
analyzed could be absorbed by the active centers
on the surface of the stationary phase and then
desorbed by the solvent. Difference of this
procession could cause the separation of
different analyte.
- Solid phase
- Polar phasesilica gel,alumina etc.
- non-polar phaseactive carbon, polymer micro-bead
- Mobile phase
- e of the solvent
- Mixture of the n-alkyl(. )and methylene
chloride
- Effect of water and other solvent
- Suitable to nonpolar substances which are
difficult to dissolve in water, such as fattiness
and oil
- Positional isomers or stereoisomers
- Chemically bonded phase HPLC
- Reverse Phase HPLC (RP-HPLC)
- Normal phase HPLC
- Liquid-liquid Partition HPLC
- C18,C8 ,-NH2, -CN
- Alkyl group
- Elution strength
- Methanol, acetonitrile
- absorbent
- (1)Mechanism
- If the analyte is ion(A), which can not be
retained by the solid phase, an counter ion (B-)
is added into the mobile phase to combine with
the ion(A),forming an neutral molecule (ion-pair
complex) and then retained by the solid phase.
- Solid phaseC18,C8
- Mobile phasewater solution
- Ion-pair reagent(C4H9)4N(. ). Cl
O4-.
- (1) Mechanism
- Exchange equilibrium of the ion-exchangers
- cation exchangeresinSO3-HM resinSO3-M
H
- anion exchangeresinNR3Cl-X- resinNR3X
-Cl -
- Retention differences depend on the tendency
existing on the resin matrix, while the stronger
the tendency the bigger tR of the ion.
- The detection of ion chromatography
- Problems of detection of IC
- Suppressor columnAdding a suppressor to
decrease the background conductivity of the
elution and increase the signal-noise ratio?
- canion ROH-H CL- RCl-H2O
- ROH-M CL- RCl-MOH
- anion RH NaOH- RNaH2O
- RH NaBr- RNaHBr
- Single columnNo need of the suppressor
column, but with special ion-exchangers and
eluents.
- (2)Solid Phase
- ion-exchanger Coating on supporter or kind of
ion-bonded phase,the ion exchangers are divided
as cation exchangers (strong/weak) and anion
exchangers (strong/weak).
- (3)Mobile phase
- Suppressor column Cation HCl,HNO3 Anion
NaOH,NaHCO3/NaCO3?
- Single column Cation HCl,HNO3(low
concentration) Anion Salt of benzoic
acid(. ), citric acid(. ) etc.
- Inorganic anion
- Inorganic cation and organic acid, organic base,
sugar etc.
- Name of the ion chromatography and ion exchange
chromatography
- (1) Mechanism
- Special retention reason the analyte is trapped
into the pore of stationary phase.Separation of
molecules is due to their different size ---
excluded or retained according to the diameter of
gel-pores.
- Elution volume VR VRV0KDVp
- K0, completely excluded K1, free permeation
0ltKDlt1.0
- Sample with different size (more than 10).
- Water soluble Gel filtration chromatography(.
??)(GFC),analyzing protein.(. ).
- Water insoluble Gel permeation chromatography
(GPC) (. ),analyzing Mole Weight of high
polymer (. )(. ).
- Porous glass, silica particles, polymers,
polysaccharides(. )
- Pore size of packing materials and exclusion
limit
- Being hydrophobic or hydrophilic
- Pressure limit
- Sample-soluble
- Solid phase and detector compatible
- Buffers of water for GFCTetrahydrofuran for GPC
- Separation and Analysis of big molecules
- Distribution of Molecular Weight of polymer
- Polyethylene glycol (. )
- 1.40000 2. 10000
- 3. 3000 4. 1000 5.500
- According to the analytical task
- Concentration
- interference (composition)
- Information of the analyte
- structure
- molecular weight
- acidity
- solubility
- Guide to liquid chromatography mode selection
water insoluble ---bonded
phase (RP), adsorption Sample
MW water soluble,
nonionic---bonded phase (RP) lt2000
acid---anion exchange/ion pair
water soluble,ionic
- HPLC chromatographic conditions
- Column
- Mobile phase
- Detectors and conditions
- Preparation of sample
- Ion pair chromatography
- Counter-ion
- Ion pair reagent
- Ion chromatography
- ion-exchange chromatography
- Resin
- Cation
- Anion
- Suppressor column
- Size-exclusion chromatography
- gel-filtration and gel permeation
- Displacement pump .
- diaphragm ??
- Hydraulic . .
- Cartridge ? ?
- Alkyl ??
- Elutropic .
- Chiral ??
- isophthalic acid .
- Polysaccharid .
- Divinylbenzene .
- Copolymerisate .
- Homolog .
- Oligomer .
- dextrane ?? .
- Phosphorescence ??
- Aliphaticlt?gt.
- Cuvette . . ??
- Phenanthrene ??