Chromatography and its types

Group Members Masoom Shani 41 Abdul karim 12 Mohammad M unawer 23 Mubasher 46 Mohammad Anas 47

Chromatography

Introduction The word “chromatography” is derived from the two Greek words,” chroma ” and “ graphein ”. "Chroma" meaning “ colour ” and " graphein "meaning “to write”. So, the word “chromatography” means, “ colour writing”. This technique was first discovered by Tswett in 1903.

Definition “Chromatography is a physical separation technique in which the components of a mixture is separated by differences in their distribution between two phases: stationary und mobile phase.” So, in simple words, we can say that “chromatography is the physical separation of a mixture into its individual components”.

Purpose Chromatography is used to: Analyze Identify Purify and Q uantify the compounds.

Phases There are two phases of chromatography: Stationary phase. Mobile phase.

Stationary phase “A phase, which becomes adsorbed on the filter media or a surface, is called “stationary phase”. It may be a liquid or a solid. It may be packed in in a column.

Examples Silica gel A lumina F ilter paper, etc. are some important stationary phases.

Mobile phase “The solvent or mixture of solvents used for the separation of components, in chromatography, is called “mobile phase”. OR “The phase, which passes over stationary phase, is called “mobile phase”. It may be a liquid or a gas. It is also called “eluent”.

Examples Alcohol Water Ethanol A cetic acid A cetone or gas etc . are some important mobile phases

Principle This is a separation technique based upon the difference of adhesive forces (relative affinities) of solute with stationary and mobile phases. The distribution of the components of a mixture between the phases is governed by distribution co-efficient K D. It can be calculated as: K D = Conc. of components in mobile phase Conc. of components in stationary phase

Types of C hromatography

Types On the basis of stationary phase, chromatography has two types: 1. Partition chromatography. 2. Adsorption chromatography.

Partition Chromatography A chromatography, having liquid stationary phase, is called “partition chromatography”.

Example “Paper chromatography” is the common example of partition chromatography.

Paper Chromatography Definition : “A chromatography , that uses paper strips or sheets as the adsorbent stationary phase through which a solution flows.” OR “ A type of partition chromatography, that uses selective adsorption on a strip of paper”.

Different ways of Paper Chromatography There are three common ways of carrying out this technique: Ascending paper chromatography. Descending paper chromatography. Radial / circular paper chromatography. But we only discuss ascending paper chromatography.

Ascending paper chromatography Material : Paper , pencil, eraser, filter paper, test tube, rubber stopper, paper clip, metric ruler etc.

Procedure Take some solvent in a chromatographic tank and cover it, so that the vapours of solvent homogenize with the walls of container or tank. Take proper cut filter paper and draw a line of 2.5 cm from the bottom with the help of lead pencil. At the midpoint, put a drop of sample mixture with the help of capillary tube. Dry it for about 15-30 minutes.

After that suspend the strip in a tank, in such a way that its bottom should be dipped 1-2 cm in a solvent.

. When the solvent front rises to about 3/4 of the length of the strip or paper, then remove the strip. Mark the solvent front with the lead pencil and dry the strip. When the strip or paper is dried, the pattern on the paper is called “chromatogram”. Each component has a R f value and it can be calculated as: R f = Distance travelled by component from spot Distance travelled by solvent from original spot

Uses Among all the chromatography methods, paper chromatography is an inexpensive and rapid method that provides graphic and clear results. It is used as a qualitative method for identifying the components in a mixture. The separated spots on the finished and dried chromatogram can be cut out and re-dissolved to obtain a pure sample of component of the sample mixtures. It is used in several scientific studies in identification of unknown organic and inorganic compounds from a mixture.

It is used as an analytical chemistry technique for identifying and separating colored mixtures like pigments . Paper chromatography can be reproduced easily as long as the conditions are controlled and maintained.

Limitations There are some disadvantages of using paper chromatography: 1 . It cannot be used as a preparative technique because we can't apply a large sample quantity. 2 . It can't be used in quantitative analysis. 3 . It doesn't allow the separation of complex mixtures. 4.This is one of oldest method.

A dsorption C hromatography “A chromatography, having solid stationary phase,is called “adsorption chromatography.

Examples “TLC (thin layer chromatography)” and “column chromatography” are the common examples of adsorption chromatography.

TLC(Thin layer chromatography) “Thin layer chromatography (TLC) is a method for identifying substances and testing the purity of compounds. TLC is a chromatography technique to separate mixtures”. The technique of TLC closely resembles those of column and paper chromatography

Definition “A chromatographic technique in which a thin layer of solid adsorbent, supported on a glass or plastic plate is used as a stationary phase”. Adsorbent used in it are silica and alumina . TLC plates are commercially available in ready form.

Procedure In thin layer chromatography, a sheet of glass of plastic plate is coated with a thin layer of adsorbent (cellulose, powder alumina, silica). This is done by mixing the adsorbent with a suitable liquid, usually water, to form a slurry. This is applied to the sheet of glass or plastic plate by spreading or dipping. After drying the plate a drop of mixture to be separated is placed just above one edge which is then placed in the air tight pool of solvent for development. After development, the developed spot can be located by holding the plate, under the UV lamp and their R f value can be determined similar to paper chromatography.

Applications 1. Thin layer chromatography is being increasingly used for qualitative, quantitative and preparative analysis. 2.The technique of TLC is extremely suited for analysis of trace components. 3.In TLC a large number of organic and inorganic compounds have been separated and identified and whenever possible quantitatively analysed . 4.The technique of TLC is very sensitive and gives sharper zones hence better resolution. 5. The application of TLC include the detection of by-products in synthetic processes, determination of the presence of impurity, peptides, carbohydrates, lipids, steroids, hormones, sterols, vitamins, pigments and inorganic anions and cations , etc.

Limitations Although TLC is very simple and convenient technique it can not tells the difference between enantiomers and isomers. Another disadvantage of TLC is that in order to identify specific compounds the R f value for the compounds of interest must be known beforehand. The components of the mixture must be soluble. It is just qualitative and not quantitative. Development of the spot takes less time, so it does not provide better resolution than paper chromatography.

Column Chromatography Definition : “Column chromatography is suitable for the physical separation of gram quantities of material”. OR The form of liquid chromatography in which a column is used to hold the stationery phase, whether the stationary phase is solid or liquid”

Principle When a mixture of mobile phase and sample to be separated are introduced from top of the column, the individual components of mixture move with different rates. Those with lower affinity and adsorption to stationary phase move faster and eluted out first while those with greater adsorption affinity move or travel slower and get eluted out last. The solute molecules adsorb to the column in a reversible manner. The rate of the movement of the components is given as follows: R= Rate of movement of a component / Rate of movement of mobile phase. i.e ; it is the ratio of distance moved by solute to the distance moved by solvent .

Apparatus Solvent acts as mobile phase. A finely divided solid surface acts as the stationary phase. The stationary phase will adsorb the components of the mixture to varying degree and adsorbent surface. This process may be described by a three-way equilibrium between the sample, the solvent and the adsorbent.

Adsorbents The most common solid adsorbents are alumina (aluminum oxide) and silica gel (silicon dioxide). Silica gel is slightly acidic while alumina may be acidic, neutral or basic.

Solvent The mobile phase or eluent is either a pure solvent or a mixture of different solvents. It is chosen so that the retention factor value of the compound of interest is roughly around 0.2 - 0.3 in order to minimize the time and the amount of eluent to run the chromatography. For most separations, the solvent should be less polar than the compounds. The compounds must also be soluble in the solvent so they are not permanently adsorbed.

Columns The columns available in the department are simple glass tubes, varying in length and diameter.

Procedure Add the sample to the top of the column, either as a neat liquid, or dissolved in a minimum amount of the solvent used to pack the column. The sample should be added directly to the sand layer. Solvent is drawn from the bottom of the column until the level of the liquid is just above the level of the sand The identity of the fractions may be determined by one of several methods. If the compounds are coloured , they can be seen to separate and visible spectroscopy can confirm the degree of separation . For colourless compounds , either TLC or GC may be used to identify the compounds present in the different fractions. The preferred method is usually TLC. Once the desired fractions are identified the solvent may be removed by rotary evaporation and the compound isolated.

Uses 1. Column chromatography is best suited to separate active principle from plant materials. 2. In separation of compounds after organic synthesis to obtain desired molecule. 3.To separate or purify natural compound mixtures like alkaloids, glycosides.

Limitations 1. Properly setting up the column requires some technical skill and manual dexterity. 2. It is very time consuming and tedious, especially for large samples. 3. Collecting vessels must be frequently switched and solvent levels need to be topped up

Chromatography and its types

About This Presentation

Slide Content

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Chromatography and its types

About This Presentation

Slide Content

Slide 1

Slide 2

Slide 3

Slide 4

Slide 5

Slide 6

Slide 7

Slide 8

Slide 9

Slide 10

Slide 11

Slide 12

Slide 13

Slide 14

Slide 15

Slide 16

Slide 17

Slide 18

Slide 19

Slide 20

Slide 21

Slide 22

Slide 23

Slide 24

Slide 25

Slide 26

Slide 27

Slide 28

Slide 29

Slide 30

Slide 31

Slide 32

Slide 33

Slide 34

Slide 35

Slide 36

Slide 37

Slide 38

Slide 39

Slide 40

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Pray For The Peace Of Jerusalem and You Will Prosper

Don_t_Waste_Your_Life_God.....powerpoint

VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf

Fertility awareness methods for women in the society

Chapter 5 Arithmetic Functions Computer Organisation and Architecture

syakira bhasa inggris (1) (1).pptx.......