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Thin layer chromatography

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Title: Thin layer chromatography


1
THIN LAYER CHROMATOGRAPHY
  • PRESENTED BY
  • Miss. Surabhi R Singh
  • B.Pharm
  • SGSPS Institute of Pharmacy, Akola

2
Thin layer chromatography
  • Introduction
  • Thin layer chromatography ( TLC ) is widely used
    technique.
  • Essential for analyst and research workers.
  • It is universal analytical technique in chemical
    analysis for organic and inorganic matter.
  • It is simple and rapid method carried out using
    thin layer of adsorbents on plates.

3
History
  • In 1938, Izmailov and Shraiber described the
  • basic principle underlying the process and used
    it
  • for separation of plant extracts.
  • Consdon, Gorden and Martin 1944 started using
    filter paper instead of open column.
  • Attempts were made using adsorption
  • chromatography on impregnated filter paper and
  • later on glassfibre, paper coated with silicic
    acid
  • or alumina.
  • Stahl in 1958 credited with bringing out the
  • work on preparing plates and separation of wide
  • variety of compounds.

4
Definition
  • CHROMATOGRAPHY
  • It represents a group of methods for
  • separating molecular mixtures that depend on
  • the differential affinities of the solute
    between
  • two immiscible phases.
  • Minute differences in a compound's partition
  • coefficient result in differential retention on
    the stationary
  • phase and thus resulting in the separation
  • One of the phase is a fixed bed of large surface
  • area called as STATIONARY PHASE.
  • It may be
  • 1)Porous
  • 2)Finely divided solid or liquid, that has been
    coated as thin layer on an inert support material.

5
  • While the other phase is fluid or gas which
  • moves through or over the surface, which is
    called
  • as the MOBILE PHASE.
  • It may be-
  • 1) Pure liquid
  • 2) Mixture of solvents
  • 3) Gas or mixture of gases
  • THIN LAYER CHROMATOGRAPHY is a
  • simple and rapid method carried out using
  • thin layer of adsorbents on plates for the
  • separation of components from molecular
  • mixture .
  • It is also called as Flat bed chromatography
  • or Planer chromatography or open column
  • Chromatography.

6
  • ADVANTAGES
  • 1) Requires little equipment, little time for
    separation
  • 2) Requires small amount of sample
  • 3) More sensitive
  • 4) Corrosive agents for identification is also
    permitted
  • 5) It can be used for adsorption, partition and
    ion
  • exchange chromatography
  • 6) Components separated can be recovered easily
    by
  • scrapping
  • DISADVANTAGES
  • It does not give a quantitative information of
    high
  • precision and accuracy

7
Principle
  • In the classification of chromatographic
  • methods TLC has been included under both
  • adsorption and Partition chromatography.
  • As various materials of different adsorptive
  • power are used in TLC, the separation not
  • always by adsorptive phenomenon.
  • Separation may result due to adsorption or
  • partition or by both phenomenon depending
  • upon the nature of adsorbents used on
  • plates and solvent system used for
  • development.

8
Technique
  • In TLC the separation is carried on a glass or
  • plastic plate which is coated with a thin
    uniform
  • layer of finely divided inert adsorbent such as
  • silica gel or alumina.
  • The plates are activated, the solution of the
  • sample in a volatile solvent is applied by using
    a
  • capillary tube or a micropipette to a spot
    keeping
  • 1-2 cm from the bottom of TLC plate.
  • The position of the sample spot is indicated by
  • marking a origin line on the plate with the
    lead
  • pencil.
  • When the spot has dried, the plate is placed
  • vertically in a suitable tank with its lower
    edge
  • immersed in selected mobile phase.

9
  • The solvent rises by capillary action, resolving
    the sample mixture into discrete spots.
  • At the end, the run solvent is allowed to
    evaporate from the plate and the separated spots
    are located and identified by various physical
    and chemical methods.
  • In short-
  • Thin layer chromatography (TLC) is a simple,
    inexpensive method which requires a minimum of
    instrumentation and can be used for separation of
    sample mixtures.
  • It is possible to separate up to 70 samples and
    standards on a single plate, which makes analysis
    quick and inexpensive

10
TLC - DIAGRAM
11
VARIOUS STEPS IN TLC
  • Selection of adsorbents
  • Preparation of chromatoplates
  • Activation of plates
  • Solvent system
  • Application of sample
  • Development chambers
  • Development of chromatograms
  • Location of spots
  • Evaluation of chromatogram

12
1) Selection of adsorbents
  • Depends on-
  • Characteristic of compounds to be
    separated
  • Solubility of compounds
  • Nature of substance to be separated i.e. acidic,
    basic, amphoteric
  • Whether compound liable to react chemically with
    adsorbent or solvent

13
Requirements for adsorbents
  • Should not react with sample- Inertness
  • Should not catalyze or decompose the sample.
  • Should not deteriorate during run
  • Should be immiscible with mobile phase.
  • Should have high degree of mechanical stability.
  • Should be inexpensive.

14
EXAMPLES
  • Inorganic Adsorbents
  • Silica gel
  • Kieselghur
  • Alumina
  • Magnesia
  • Magnesium silicate, calcium silicate etc.
  • Organic Adsorbents
  • Cellulose and its acetylates
  • Charcoal and activated carbon
  • Others- dextran gels, ion exchange resins,
    polyamides etc.

15
2)Preparation of chromatoplates
  • Glass plates or flexible plates are used commonly
    for spreading adsorbent.
  • Standard sizes used are 205 cm, 2010 cm or
    2020 cm.
  • The surface of plates should be flat and without
    irregularities. The standard thickness is 250 µm.
  • Suspension or slurry of the coating material
    is used to give uniform thickness over the
    plates.
  • Following are the 3 methods of applying
    thin layer of adsorbent-
  • 1) Pouring,
  • 2) Dipping,
  • 3) Spreading

16
  • 1) POURING-
  • Slurry of adsorbent made and poured on a plate
  • and allowed to flow over it so that it is evenly
    covered.
  • 2) DIPPING-
  • It is used for small plates by dipping 2
  • plates at a time, in a slurry. But in this exact
  • thickness of layer is not known.
  • 3)SPREADING-
  • Modern methods utilise the spreading
  • devices for preparation of uniform thin layers
  • on glass plates .
  • The spreading was done by means of
  • Spatula or by glass rod.
  • Nowadays commercial spreaders such as-
  • Moving spreader,
  • Moving plate type are used mostly.

17
  • Precoated Plates
  • Glass Support- It is resistant to heat and
  • chemicals, easy to handle and offers superior,
    flat
  • and smooth surface for chromatographic work.
  • Disadvantage- Fragility, relatively high
    weight,
  • additional packing material and higher
    production
  • cost.
  • Polyester Sheets- These are unbreakable,
  • require less packing material, less shelf space
    for
  • storage and can be cut to required format.
  • Disadvantage- Charring reactions are possible if
  • temperature exceeds 120C.
  • Aluminum Sheets- They have increased
  • temperature resistance.
  • Disadvantage- Eluents containing high
    concentrations of
  • mineral acids and concentrated ammonia should
    not be
  • used, as they chemically attack aluminum.

18
  • Commonly available Percolated plates-
  • 1.Silica gel(unmodified)More than 80analysis
    are done on this layer.
  • 2.Aluminum oxide These are used for basic
    substances, alkaloids and steroids.
  • 3.High purity Silica gel 60 These are used for
    Aflotoxins.
  • 4.Cellulose (microcrystalline) Used for Amino
    acid, dipeptides, sugars, antibiotics and other
    labile compounds which cannot be chromatographed
    on active layers of silica gel.
  • 5.Silica gel- chemically modified
  • a)Amino Used for carboxylic acids, phenols,
    nucleotides, vitamins(B1,B6,B12), Uric acid and
    xanthine derivatives.
  • b)Cyano It is used for pharmaceutical
    preservatives.
  • c)Chiral It is used for resolution of
    enantiomeric substances for optical purity such
    as amino acids, dipeptides, lactones.

19
  • 4) ACTIVATION OF PLATES
  • After spreading plates are allowed to dry
  • in air (5-10 mins) and it is further dried and
  • activated by heating at about 100ºC for 30 mins.
  • 5) SOLVENT SYSTEM
  • The choice of mobile phase depends on-
  • 1)Nature of substance to be separated.
  • 2)Adsorbent material to be used.
  • Organic solvent mixture of as much low
  • polarity as possible . Highly polar solvent are
  • avoided to minimize adsorption of any component
  • Use of water as a solvent is avoided as it
  • may loosen the adhesion of a layer on a glass
  • plate. Following solvents are generally used-
  • Petroleum ether , carbon tetrachloride ,benzene,
  • Chloroform , acetone ,ethanol , methanol etc.

20
5)APPLICATION OF SAMPLE-
  • The area of sample application should be kept
  • as small as possible for sharper and greater
  • resolution.
  • For preparative work , the sample is applied in
  • narrow band.
  • The pipette, loop or syringe can be used for
  • applying sample.
  • The spot diameter should be between 2-5 mm.
  • Before the sample application, the starting
  • point and finish line is usually marked.

21
6) Development of chambers
  • The TLC plate is placed vertically in a
    rectangular
  • Chromatography tank or chamber.
  • They are classified according to separation
  • technique used as follows-
  • Tanks for ascending development.
  • Tanks for descending development.
  • Tanks for horizontal development.
  • Tanks for thin layer electrophoresis
  • Glass or stainless steel is most suitable for
    first 3
  • methods , plastic are not used widely as they
    are
  • not resistant to all organic solvents and
    solutions.
  • Saturation of tank is important, development
  • should be carried out at room temperature.

22
Diagram of chromatographic chambers
23
7)Development of chromatograms
  • It means running of the mobile phase over the
  • stationary phase.
  • Ascending development
  • The plates after spotting the sample are
  • placed in chromatography chamber containing
  • solvent at the bottom. The flow of solvent is
    from
  • bottom to top.
  • Diagrams for ascending development

24
  • DIAGRAM FOR ASCENDING DEVELOPMENT
  • B) DESCENDING DEVELOPMENT
  • In this method, flow of the solvent from
  • reservoir to the plate is by means of a filter
    paper
  • strip. Solvent moves from top to bottom of the
  • plate.

25
8)LOCATION OF SPOTS
  • Location of substances are done by using
    PHYSICAL
  • METHODS CHEMICAL METHODS.
  • a)PHYSICAL METHOD -
  • It include ultraviolet, fluorescence or
  • radioactive counting.
  • b)CHEMICAL METHOD -
  • In this method locating agents are applied
  • by spraying.
  • Concentrated sulfuric acid is used mostly as
    it
  • produces colored spots which are visible in
  • daylight as well as UV light.
  • One more locating agent for organic substances
  • is iodine vapors. plate is exposed to iodine
  • vapors, by placing in closed vessel
    containing
  • a few iodine crystals.

26
9) Evaluation of chromatogram
  • After locating the spots on plates and marking
  • their position and size, they are evaluated
  • quantitatively or qualitatively.
  • A) QUALITATIVE- In this , the RF value of
  • standard or authentic sample for the same mobile
  • phase is known and is recorded.
  • The RF value of the sample is calculated and on
  • comparison of RF values for known and unknown
  • the qualitative identification of sample is
    made.
  • B) QUANTITATIVE- Following 2 methods are
  • used-
  • Direct method
  • Indirect method

27
a) Direct methods
  • A) visual comparison
  • For a quick semiquantitative analysis of
  • amount of components, visual comparison of spot
  • size, intensity of spot or the combination of
    both is
  • made with known standard spots.
  • B) spot areas and weight relationship
  • From the area of spot, amount of substance
  • present is calculated. Usually linear
    relationship is
  • found between the spot area and weight of
  • compound present in it.
  • c) Direct spectrometry
  • Quantitative measurements are obtained
  • by reading the absorption or fluorescence of
  • separated zones directly on TLC plates.

28
UV spectra
  • UV light
  • Detector
  • Beam
  • Reflected beam


29
B) Indirect method
  • In this method, the area containing
  • substance on TLC plate is marked and scrapped
  • or scooped out with the help of vacuum cleaner
  • without any loss.
  • Then solute from adsorbent is extracted or
  • eluted with suitable solvent.
  • The eluted is then analysed by suitable
  • technique like colorimetry , fluorimetry ,
  • spectrophotometry, radiometry or by suitable
  • color development method.

30
READING THE TLC
  • TLC can be read with the help of Rf value
    (Retention Factor)- This measures difference in
    rate of movement of components in chromatography.
  • Solvent front
  • Starting line

Totally unretained solute
Totally retained solute
31
APPLICATION OF TLC
  • Purity of sample For this direct comparison of
    the sample and authentic sample is done, if
    impurity is present it shows extra spot.
  • Examination of Reactions Reaction mixture is
    examined by TLC to asses whether reaction
    complete or not.
  • Identification of Compounds It is employed in
    isolation, purification of various class of
    organic compounds.
  • Biochemical Analysis It is used in separation
    of biochemical metabolite.
  • Pharmaceutical Industries It is used in
    detection of impurity in pharmacopoeial drug or
    chemical.
  • Testing of Drugs Various Drugs like hypnotic,
    sedative, anticonvulsant, analgesic and
    anaesthetics are tested
  • Separation of Multi-Component Pharmaceutical
    Formulation.

32
reffarences
  • 1) Textbook of pharmaceutical analysis and
  • HPTLC by P. D. Sethi
  • 2) Textbook of Pharmacognosy by Dr. C. K. Kokate
  • A. P. Purohit and S. B. Gokhale
  • 3) Thin-layer chromatography - Wikipedia, the
    free encyclopedia_files
  • 4) htmfacrc03Bthin layer chromatography
    diagramimgdii_images
  • 5) Microsoft Powerpoint 97-2003 Presentation at
    listeprix.com

33
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