4.8 - Organic Synthesis and Analysis

Question 1

What factors might be considered when deciding on a synthesis route?

Answer 1

• Type of reaction
• Reagents
• Atom economy
• Byproducts
• Conditions

Question 2

What condition is required for alkanes to undergo free radical substitution with halogens?

Answer 2

It is a photochemical reaction so the reaction requires ultraviolet light.

Question 3

What different products can be produced when alkenes undergo electrophilic addition?

Answer 3

Question 4

Name the process in which alkenes can react to form polymers

Answer 4

Addition polymerisation

Question 5

What reactant and conditions are required for a halogenoalkane to form a nitrile?

Answer 5

Reactant: Ethanolic KCN Conditions: Warm, reflux setup

Question 6

Name the mechanism and products formed when halogenoalkanes react with ammonia

Answer 6

Mechanism: Nucleophilic substitution
Products: Amines

Question 7

Name the two types of reactions between halogenoalkanes and hydroxides. How can you influence which reaction will occur?

Answer 7

• Nucleophilic substitution - produces alcohols.
• Elimination - produces alkenes.
• Aqueous conditions are required for the nucleophilic substitution reaction and anhydrous ethanolic conditions are required for the elimination reaction.

Question 8

How can alcohols react to form alkenes?

Answer 8

Alcohols can undergo dehydration with concentrated sulfuric acid (catalyst) to form alkenes. This is an elimination reaction.

Question 9

What are the various products formed when alcohols react with acidified potassium dichromate(VI)?

Answer 9

• Primary alcohols are oxidised to aldehydes and then to carboxylic acids.
• Secondary alcohols are oxidised to ketones.
• Tertiary alcohols do not undergo oxidation with acidified potassium dichromate(VI).

Question 10

What are produced when alcohols reacts with carboxylic acids?

Answer 10

Esters

Question 11

Give the reducing agent required for aldehydes and ketones to form alcohols

Answer 11

NaBH4 in water with methanol

Question 12

Give the reactants and mechanism name for the formation of hydroxynitriles from aldehydes

Answer 12

• Reactants: Acidified KCN (usually a mix of KCN and H2SO4)
• Mechanism name: Nucleophilic addition

Question 13

Give the reducing agent required for carboxylic acids to form alcohols

Answer 13

LiAlH4

Question 14

What are produced when nitriles undergo reduction with LiAlH4?

Answer 14

Amines

Question 15

Give the reactants and mechanism name for the formation of nitrobenzene from benzene

Answer 15

• Reactants: Concentrated sulfuric acid and concentrated nitric acid
• Mechanism name: Electrophilic substitution

Question 16

How can arenes form benzoic acid?

Answer 16

Benzoic acid is produced when side chains on arenes undergo oxidation. Alkaline manganate(VII) followed by acidification is the most effective reagent.

Question 17

What are produced when phenol reacts with diazonium salts?

Answer 17

Azo compounds

Question 18

What is the product obtained when phenol reacts with nitric acid?

Answer 18

Nitrophenol

Question 19

What different reactants are required for acyl chlorides to produce primary amides, N-substituted amides, esters and carboxylic acids?

Answer 19

Question 20

Give the reactants and mechanism name for the production of a phenylketone from benzene

Answer 20

• Reactants: Acyl chloride and AlCl3 catalyst
• Mechanism: Electrophilic substitution

Question 21

How can ethanoic acid be formed from chloroethane?

Answer 21

Question 22

How can 2-propylamine be formed from propene?

Answer 22

Question 23

A synthetic route is chosen to produce an organic compound. In terms of reagents, why might this route be favoured?

Answer 23

• The reagents might be renewable.
• The reagents may have minimal safety
  concerns.

Question 24

How are by-products linked to the selection of a particular synthetic route?

Answer 24

A synthetic route with less harmful by-products is preferred as there are fewer safety and environmental concerns. The process is more sustainable if the by-products can be used in another industry.

Question 25

What condition is required to ensure a primary alcohol forms a carboxylic acid upon oxidation?

Answer 25

The reaction needs to be setup in reflux.
Reflux is the boiling setup with a vertical condenser that allows the vapours to return to the same mixture once they condense.

Question 26

How can you separate an insoluble product from a solution?

Answer 26

Filtration:
- Filter paper placed in a funnel over a conical flask.
- Pour the mixture through the funnel.
- The insoluble product is left on the filter paper.

Question 27

Describe how to carry out simple distillation

Answer 27

Heat a solution in a round bottomed flask using a Bunsen burner. The solvent evaporates then cools in the condenser. The pure liquid is collected in a beaker.

Question 28

Describe how a solid can be purified by recrystallisation

Answer 28

1. Add a minimum volume of hot solvent to the impure solid until it dissolves.
2. Filter the solution to remove any insoluble impurities.
3. Leave the solution to slowly cool. Crystals will start to form.
4. Remove the liquid containing the soluble impurities from the crystals by
   filtering the mixture under reduced pressure with a Büchner funnel.
5. Wash the crystals with ice cold solvent to remove any soluble impurities
   from the surface. Leave the crystals to dry.

Question 29

How can water soluble impurities be separated from an insoluble organic product?

Answer 29

Once the reaction is complete, pour the mixture into a separating funnel and add water. Shake the funnel and then leave the mixture to settle. Two distinct layers will form since the organic layer and aqueous layer will not mix. The tap on the separating funnel can then be opened and each layer can be run off separately.

Question 30

What is the difference between addition polymerisation and condensation polymerisation?

Answer 30

Addition polymerisation is the process by which polymers are formed by the addition of monomers, with no by-products. Condensation polymerisation usually involves two different types of monomers (each with at least two functional groups) undergoing condensation, resulting in the formation of small molecules such as HCl, water or ammonia as a by-product.

Question 31

How are polyesters formed?

Answer 31

Polyesters form when dicarboxylic acids react with diols in a condensation reaction.

Question 32

How are polyamides formed?

Answer 32

Polyamides form when dicarboxylic acids react with diamines in a condensation reaction.

Question 33

Draw the repeat unit of nylon-6

Answer 33

Question 34

What is the displayed formula of the monomer used to make nylon-6?

Answer 34

Question 35

Which two monomers are used to make nylon-6,6?

Answer 35

• 1,6-diaminohexane
• Hexanedioic acid

Question 36

Draw the repeat unit of nylon-6,6

Answer 36

Question 37

How is PET produced?

Answer 37

PET is formed from benzene-1,4-dicarboxylic acid and ethane-1,2-diol. The two monomers react together and ester links form between them.

Question 38

Draw the displayed structure of the repeat unit of PET

Answer 38

Question 39

How can you determine the melting point of an organic solid?

Answer 39

1. Pack a small sample of the solid into a capillary tube. Place the tube inside a heating element.
2. Increase the temperature of the heating element until the sample turns to liquid.
3. Compare the melting point to data book values to identify the solid.

Question 40

How can the melting point of a substance be used to evaluate its purity?

Answer 40

A pure substance will have an exact sharp melting point. An impure substance will melt over a range of temperatures.

Question 41

How can NMR be used to identify a molecule?

Answer 41

NMR allows you to identify the different fragments in the molecule which can then be used to predict the structure of the molecule.

Question 42

How can a proton environment be identified using a proton NMR spectrum?

Answer 42

Compare the chemical shift values of the peaks in an NMR spectrum to values in a data book.

Question 43

On a proton NMR spectrum, what does the ratio of the areas under the peaks indicate?

Answer 43

The relative number of protons in each environment.

Question 44

What are equivalent protons?

Answer 44

Protons in the same environment. These may be on the same or different carbons.

Question 45

What is chromatography?

Answer 45

Chromatography is a process used to separate a mixture into different components. All chromatography processes involve a mobile phase, where the molecules can move, and a stationary phase, where the molecules can’t move.

Question 46

How can TLC be used to separate mixtures?

Answer 46

A glass plate has a thin layer of silica or alumina fixed to it which acts as the stationary phase. The mixture to be separated is dotted on a baseline near the bottom of the plate. The plate is then put in a solvent (the solvent must be below the baseline). As this mobile phase moves up the plate, the mixture separates out depending on how soluble it is in the solvent. The distance each component travels up the plate can be measured and an Rf value can be calculated to help identify which components are present.

Question 47

What is an Rf value and how can it be calculated?

Answer 47

• Rf = distance moved by component /
  distance moved by solvent

Question 48

How can gas chromatography be used to find the composition of mixtures?

Answer 48

The stationary phase is a solid packed into a long tube and the mobile phase is an unreactive carrier gas, such as nitrogen. The time it takes for a component to be injected into the tube and then recorded at the other end is called the retention time and can be used to identify the components in a mixture.

Question 49

How can HPLC be used to find the composition of mixtures?

Answer 49

A vertical column is packed with a solid, which acts as the stationary phase. A solvent containing the mixture being analysed is then added as the mobile phase. As the mixture washes through the column, the components separate out depending on how soluble they are in the mobile phase. The time it takes for a component to pass through the column is called the retention time and can be used for identification.