WM cdhg: Organic reactions (alcohols & phenols); green chemistry

Question 1

What is an elimination reaction?

Answer 1

One in which a small molecule is removed from a larger one, leaving the latter unsaturated.

Question 2

• What conditions are required for the reaction between alcohols and halide ions?
• What type of reaction occurs?
• What is the mechanism?
• What is produced?

Answer 2

• HCl / H₂SO₄
• Substitution
• Nucleophilic substitution
• Haloalkane + water

Acid catalyst protonates C-OH carbon, making it more δ+ and thus susceptible to nuc attack

Question 3

1. What conditions are required for the conversion of alcohols to alkenes?
2. Give two names for the type of reaction which occurs.

Answer 3

• Heated Al₂O₃ / conc. H₂SO₄, reflux
• Dehydration, elimination

Question 4

Name, and give the formula for, a strong oxidising agent which will oxidise the hydroxyl group on alcohols.

Answer 4

Acidified dichromate(VI) solution

Cr₂O₇(aq)^2- / H⁺(aq)

Question 5

• Which of primary, secondary and tertiary alcohols react with acidified dichromate(VI) solution?
• Describe and explain what is observed

Answer 5

• Primary + secondary
• Mixture turns from orange to green. Orange dichromate(VI) (Cr₂O₇^2-) ions are reduced to green chromate(III) (Cr³⁺) ions

Question 6

• Give two names for the type of reaction which occurs between primary or secondary alcohols and acidified dichromate(VI) solution.
• Describe what happens to the hydroxyl group.

Answer 6

• Oxidation, condensation
• -OH group oxidised to C=O (carbonyl) group: one hydrogen removed from oxygen + another from carbon to which oxygen is bonded

Question 7

State what is produced when acidified dichromate(VI) solution is added to a primary alcohol and the mixture is:

• Distilled
• Refluxed

Answer 7

• Distilled: aldehyde
• Refluxed: carboxylic acid

Question 8

State what is produced when acidified dichromate(VI) solution is added to a secondary alcohol and the mixture is:

• Distilled
• Refluxed

Answer 8

• Distilled: ketone
• Refluxed: ketone (no further oxidation; would involve breaking strong C-C bond)

Question 9

State what is produced when acidified dichromate(VI) solution is added to a tertiary alcohol and the mixture is:

• Distilled
• Refluxed

Answer 9

Alcohol is not oxidised under either condition.

(No hydrogen available to remove from carbon atom to which hydroxyl group is bonded)

Question 10

Draw a diagram showing what is produced when acidified dichromate(VI) solution is added to ethanol and the mixture is:

• Distilled
• Refluxed

Answer 10

Question 11

Write an equation, using full structural formulae, for the reaction between acidified dichromate(VI) solution and propan-2-ol. Represent the former with [O].

Answer 11

Question 12

Name a test for phenol. Describe and explain what is observed when phenol is present.

Answer 12

• Test with neutral iron(III) chloride solution
• Mixture changes from colourless to purple since C=C–OH (enol) group forms purple complex with Fe³⁺ ions

Question 13

Write equations to show how ethanol and phenol act as acids.

Answer 13

C₂H₅OH(aq) ⇌ C₂H₅O^-(aq) + H⁺(aq)

C₆H₅OH(aq) ⇌ C₆H₅O^-(aq) + H⁺(aq)

Question 14

Rank the acidic strength of the following compounds in decreasing order:

• Phenols
• Water
• Carboxylic acids
• Ethanol

Answer 14

Carboxylic acids > phenol > water > ethanol

Question 15

How do phenols and carboxylic acids react with:

• Alkalis (strong bases)?
• Carbonates (weak bases)?

Answer 15

Phenol + alkali → salt + water

Carboxylic acid + alkali → salt + water

Phenol + carbonate: no reaction

Carboxylic acid + carbonate → salt + water + CO₂

Remember that phenols are less reactive than carb acids, and carbonates are less reactive than alkalis.

Question 16

Write the symbol equation for the reaction between ethanoic acid and sodium hydroxide.

Answer 16

CH₃COOH + NaOH → CH₃COONa + H₂O

Question 17

• Write the skeletal equation for the reaction between phenol and sodium hydroxide.
• Name the organic product.

Answer 17

Sodium phenoxide

Question 18

Write the symbol equation for the reaction between ethanoic acid and sodium carbonate.

Answer 18

2CH₃COOH + Na₂CO₃ → 2CH₃COONa + CO₂ + H₂O

Question 19

State and explain what would be observed on the addition of sodium carbonate to:

• Phenol
• Propanoic acid

Answer 19

• No change; phenol does not react with carbonates
• Fizzing; gaseous CO₂ produced

Question 20

• Name two reagents which can be used to esterify alcohols. For each, state any conditions required.
• State which reaction is reversible.

Answer 20

• Carboxylic acids, with conc. H₂SO₄ / HCl
• Acid anhydrides (no catalyst)

Reaction with carb acids is reversible (with acid anhydrides goes to completion)

Question 21

Explain why acid anhydrides are preferable to carboxylic acids as a reagent for the esterification of alcohols.

Answer 21

• Acid anhydrides react completely with alcohols (reverse reaction is negligable):
  
  • Leaving group is ^-OCOO ion
  • Delocalisation makes it stabler and a worse nucleophile than OH^- leaving group from carb acids
  • Less likely to attack ester
• Acid anhydrides give higher yield of ester

Stability in solution: Cl^- ions > carboxylate ions > OH^- ions

Question 22

• Give the skeletal equation for the reaction of ethanol with ethanoic acid.
• Name the organic product.

Answer 22

Ethyl ethanoate

Question 23

Give the symbol and word equations for the reaction of ethanol with ethanoic anhydride.

Answer 23

Question 24

What reagent(s) and conditions are needed to esterify phenols?

Answer 24

Acid anhydride, alkaline conditions

Carboxylic acids aren’t reactive enough for phenols. OH in phenols is less reactive than in alcohols bc delocalisation acts as “electron vampire”, making nucleophilic oxygen less δ^-

Question 25

Write the word and symbol equation for the synthesis of phenyl ethanoate from phenol.

Answer 25

Phenol + ethanoic anhydride → phenyl ethanoate + ethanoic acid

C₆H₅OH + (CH₃CO)₂O → CH₃COOC₆H₅ + CH₃COOH

Question 26

The systematic name of salicylic acid is 2-hydroxybenzoic acid.

Name two ways in which it could be esterified.

Answer 26

• React phenol group with acid anhydride
• React carboxyl group with alcohol, in presence of conc. HCl / H₂SO₄

Question 27

The systematic name of salicylic acid is 2-hydroxybenzoic acid.

Draw two synthetic pathways for the esterification of salicylic acid, naming any conditions required.

Draw the skeletal formulae of all reagents and products, and give the systematic names of the organic products.

Answer 27

Image labelled “ethanol” is actually methanol. Q is general but A is ethyl and methyl esters respectively.

Question 28

Answer 28

Question 29

What is green chemistry?

Answer 29

The development of chemical processes which are as sustainable and environmentally friendly as possible.

Question 30

Suggest 3 principles of green chemistry which maximise sustainability.

Answer 30

• Maximise atom economy
• Minimise energy usage (catalysis, temp, pressure)
• Use renewable feedstock

Question 31

Suggest 4 principles of green chemistry which reduce waste production.

Answer 31

• Maximise atom economy
• Reduce number of reagents + synthetic steps
• Catalysis
• Real-time process monitoring

Question 32

Suggest 5 principles of green chemistry which minimise health and safety issues.

Answer 32

• Use less hazardous reagents
• Design less hazardous products (immediate + during degradation in environment)
• Use less hazardous solvents
• Use less hazardous processes (minimise gas/fire/explosions)