DETERMINACIÓN DE ESTRUCTURAS ORGÁNICAS (ORGANIC SPECTROSCOPY) LIQUID CHROMATOGRAPHY Hermenegildo García Gómez Hermenegildo García Gómez Departamento de Química Departamento de Química Instituto de Tecnología Química Instituto de Tecnología Química Universidad Politécnica de Valencia Universidad Politécnica de Valencia 46022 Valencia 46022 Valencia E- mail: mail: [email protected] [email protected] Telephone: +34 96 387 7807 or ext. 78572/73441 Telephone: +34 96 387 7807 or ext. 78572/73441 Fax: + 34 96 387 Fax: + 34 96 387 7809 7809
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DETERMINACIÓN DE ESTRUCTURAS ORGÁNICAS(ORGANIC SPECTROSCOPY)
LIQUID CHROMATOGRAPHY
Hermenegildo García GómezHermenegildo García GómezDepartamento de QuímicaDepartamento de Química
Instituto de Tecnología QuímicaInstituto de Tecnología QuímicaUniversidad Politécnica de ValenciaUniversidad Politécnica de Valencia
46022 Valencia46022 Valencia
EE--mail: mail: [email protected]@qim.upv.esTelephone: +34 96 387 7807 or ext. 78572/73441Telephone: +34 96 387 7807 or ext. 78572/73441
Fax: + 34 96 387 Fax: + 34 96 387 78097809
Types of Chromatography
1. Gas Liquid Chromatography
2. Liquid Column Chromatography
3. Others
LIQUID COLUMN CHROMATOGRAPHY
A sample mixture is passed through a column packed with solid particles which may or may not be coated with another liquid.
With the proper solvents, packing conditions, some components in the sample will travel the column more slowly than others resulting in the desired separation.
Diagram of Simple Liquid Column ChromatographyDiagram of Simple Liquid Column Chromatography
The 4 basic liquid chromatography modes are named according to the mechanism
of separation involved:
1. Liquid/Solid Chromatography (adsorption chromatography)
2. Liquid/Liquid Chromatography (partition chromatography)
3. Ion Exchange Chromatography
4. Gel Permeation Chromatography (exclusion chromatography)
FOUR BASIC LIQUID CHROMATOGRAPHY
ADSORPTION CHROMATOGRAPHY
The surface contains silenol groups that are able to form hydrogen bonds.
LIQUID SOLID CHROMATOGRAPHY
Si - OH
HEXANE
OH
C-CH3
CH3
CH3- CCH3
CH3
OH
OH
CH3
CH3
Hydrogen Bond
LessPolar
SOLVENTS
Polar Solvents
Water > Methanol > Acetonitrile > Ethanol > Oxydipropionitrile
Non-polar Solvents
N-Decane > N-Hexane > N-Pentane > Cyclohexane
REVERSE PHASE CHROMATOGRAPHY
Silanization renders the silice particle “hychophobic”Polar molecules do not interact with reverse phase silicaApolar molecules interact strongly with the silanized particles
HO Si
OH
OH O
O
OO
OOH
OH
OH
Si
HO
HO
(Silanization)
Polar
NORMAL VERSUS REVERSE PHASE CHROMATOGRAPHY
Ketones Aromatics Alkanes
Evolution order
Carboxylicacids
Carboxylicacids
KetonesAromaticsAlkanes
WATER-SOLUBLE VITAMINS
1. Niacinamide 2. Pyridoxine
N
CONH2
N
CH2OH
CH2OH
HO
H3C
3. Riboflavin
N
NNH
NCH2
HOCHHOCHHOCH
CH2OH
O
OH3C
H3C
ClN
S
N
NH3C
CH2
NH2
CH3
CH2CH2OH
4. Thiamin
WATER-SOLUBLE VITAMINS
PARTITION CHROMATOGRAPHY ODPN(oxydipropionylnitrile)
Normal Phase LLC Reverse Phase LLC
NCCH3 CH2 OCH2 CH2 CN(Normal)CH3 (CH2 )16 CH3 (Reverse)
The stationary solid surface is coated with a 2nd liquid (the Stationary Phase) which is immiscible in the solvent (Mobile) phase.
Partitioning of the sample between 2 phases delays or retains some components more than others to effect separation.
ION-EXCHANGE CHROMATOGRAPHY
Separation in Ion-exchange Chromatography is based on the competition of different ionic compounds of the sample for the active sites on the ion-exchange resin (column-packing).
Ionic bond
MECHANISM OF ION-EXCHANGE CHROMATOGRAPHY OF AMINO ACIDS
SO3-
SO3-
Na+
COO-
H3N+
Na+
COOHH3N
+
pH2
pH4.5
Ion-exchange Resin
H 3 N +
SO 3-
SO 3-
SO 3-
SO 3-
SO 3-
SO 3-
H 3 N +
COOH
OH
COOH
COOHH 3 N +
H 3 N +OH
COO -Na +
H 3 N +
COO -
Na +
Na +
H + OH - = H 2 O
H + OH - = H 2 O
Na +
Na +
pH3.5
Mobile PhaseStationary Phase
Exchange Resin
pH4.5
Chromatography of Amino AcidsChromatography of Amino Acids
Porous ParticlesPorous Particles
GEL-PERMEATION CHROMATOGRAPHY
Gel-Permeation Chromatography is a mechanical sorting of molecules based on the size of the molecules in solution. Small molecules are able to permeate more pores and are, therefore, retained longer than large molecules.
Schematic Diagram of Liquid Chromatography
1. Ultraviolet DetectorDiode Array
200-400nm 254 nm
2. Refractive Index Detector
Universal Detector
DetectorsDetectors
flow400
220
Led detector
High Performance Liquid Chromatography
• Waters• Varian• Agilant
Chromatogram of Orange Juice Compounds
Retention Time
Time required for the sample to travel from the injection port through the column to the detector.
Response
Retention Time
5 10 15 20 25
A
B
C
D
SELECTIVITY (α)
Ratio of Net Retention Time of 2 components.
X 2 - X 0
X 1 X 0-α =
R e s p o n s e
R e ten tio n T im e
X
X
X
1 3 6
2
1
0
SelectivitySelectivity
Solvant
RESOLUTION
HEIGHT EQUIVALENT TO A THEORETICAL PLATE
Length of a column necessary for the attainment of compound distribution equilibrium (measure the efficiency of the column).
Theoretical plates (N) = 16 ( )XY
2
X
Y
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