3.3.16 Chromatography

Question 1

What is the mobile phase?

Answer 1

Where molecules can move

Question 2

What is the mobile phase always?

Answer 2

Always liquid or gas

Question 3

What is the stationary phase?

Answer 3

Where molecules can’t move

Question 4

What is the stationary phase always?

Answer 4

Solid, or a liquid on solid support

Question 5

What does the distance that each substance moves up the plate by depend on?

Answer 5

Substance’s solubility in mobile phase and its retention by stationary phase

Question 6

State 3 types of chromatography

Answer 6

• Thin-Layer Chromatography
• Column Chromatography
• Gas Chromatography

Question 7

State what the stationary phase in thin-layer chromatography is

Answer 7

thin layer of silica (silicon dioxide) or alumina (aluminium oxide) fixed to glass or metal plate

Question 8

When handling the plate in TLC, what should you do and why?

Answer 8

Wear gloves to avoid contamination by substances on your hand

Question 9

Describe a method for thin-layer chromatography (TLC)

Answer 9

1. Draw line in pencil near bottom of TLC plate (the baseline) & put small drop of each mixture on line
2. Allow spots to dry
3. Place plate in beaker with small volume of solvent (mobile phase)
   
   • Solvent level must below baseline
4. As solvent moves up plate, it carrier substances in mixture with it
   
   • Some chemicals will be carried faster than other and and travel further up plate
5. Remove plate from beaker when solvent has nearly reached top of plate
6. Before it evaporates, use a pencil to make how far solvent travelled up plate (solvent front)
7. Place plate in fume cupboard to dry

Question 10

Why must the solvent level be below the baseline?

Answer 10

So solvent doesn’t dissolve samples away

Question 11

Why should you place a TLC plate in fume cupboard to dry?

Answer 11

Fume cupboard will prevent any toxic or flammable fumes from escaping into room

Question 12

What is the result produced from TLC called?

Answer 12

Chromatograph

Question 13

Name 2 substances you can use to reveal colourless chemicals

Answer 13

• UV Light
• Iodine

Question 14

Describe how you can use UV light to reveal colourless chemicals

Answer 14

1. Many TLC plates have special fluorescent dye added to silica or alumina layer that glows when UV light shines on it
2. Can put plate under UV lamp and draw around dark patches to show where spots of chemical are

Question 15

Describe how you can use iodine to reveal colourless chemicals

Answer 15

1. Expose chromatogram to iodine vapour
   
   • i.e. leave plate in sealed jar with some iodine crystals
2. Iodine vapour is a location agent - sticks to chemicals on plate and they’ll show up as brown/purple spots

Question 16

How can you find the number of chemicals present in a TLC chromatograph?

Answer 16

Count no. of spots formed on plate

Question 17

How can you find out what each chemical is from TLC?

Answer 17

By calculating a R_f value

Question 18

State the formula to calculate a R_f value

Answer 18

Question 19

Once you’ve calculated a R_f value, what do you do next?

Answer 19

Look up R_f values in table of standard R_f values to identify what the substance is

Question 20

Name 3 factors that can change R_f values

Answer 20

If composition of TLC plate, solvent or temperature changes even slightly = get different R_f values

Question 21

As it’s hard to keep conditions ideal in TLC, what can you do to combat the differences in R_f values?

Answer 21

∴ if you suspect mixture contains e.g. chlorophyll best to put spot of chlorophyll on baseline of same plate as mixture and run them both at same time

Question 22

What is column chromatography used for?

Answer 22

Used for purifying an organic product

(Done to separate product from unreacted chemicals and by-products)

Question 23

Describe column chromatography (method)

Answer 23

1. Involves packing glass columns with slurry of absorbent material e.g. aluminium oxide, coated with water
2. Mixture to be separated is added to top of column and allowed to drain down into slurry
3. Solvent is then run slowly and continually through column

Question 24

What is the stationary phase in column chromatography?

Answer 24

Water-coated particles of Al₂O₃

Question 25

What is the moblie phase in column chromatography?

Answer 25

Solvent

Question 26

Describe how a mixture is separated in column chromatography

Answer 26

1. As mixture is washed through column = its components separate out according to how soluble they are in mobile phase and how strongly they are adsorbed onto stationary phase (retention)
2. More soluble each component is in mobile phase, quicker it’ll pass through column

Question 27

What is gas chromatography (GC) used for?

Answer 27

Used to separate mixture of volatile liquids so you can identify them

Question 28

What is the stationary phase in gas chromatography?

Answer 28

Solid or solid coated by viscous liquid e.g. oil packed into long tube

Question 29

How and where is the tube arranged in GC?

Answer 29

Tube is coiled to save space and built into an oven

Question 30

What is the mobile phase in gas chromatography?

Answer 30

Unreactive carrier gas e.g. nitrogen

Question 31

What is meant by rentention time in GC?

Answer 31

The time taken for a component to travel between the injection point and the detector

Question 32

Describe how you identify components of mixture in GC

Answer 32

Each separate substance will have unique retention time = so use retention time to identify components of mixture

(Have to run known sample under same conditions for comparison)

Question 33

What does retention time depend on?

Answer 33

How much time the component spends moving along with the carrier gas, and how much time it spends stuck to the viscous liquid

Question 34

What does the area under each peak show?

Answer 34

Relative amount of each component that’s present in mixture

Question 35

Name two uses of GC

Answer 35

• To find level of alcohol in blood or urine
  
  • Very accurate
• To find proportions of various esters in oils used in paints
  
  • Allows picture restorers know exactly what paint was originally used

Question 36

Describe how gas chromatography-mass spectrometry (GC-MS) works

Answer 36

1. Sample is separated using gas chromatography, but instead of going to detector, separated components are fed into mass spectrometer
2. Spectrometer produces mass spectrum for each component = used to identify each one and show what original sample consisted of

Question 37

Describe the advantage of using GC-MS over GC

Answer 37

Components separated out by chromatography can be positively identified which can be impossible from chromatogram alone

Question 38

Describe how the GC-MS process can be automated

Answer 38

Computers can be used to match up mass spectrum for each component of mixture against database

Question 39

Why does two-way chromatography makes identification of the components of the mixture more certain?

Answer 39

Each component has 2 R_f values both of which must match with a known component