14. Alcohols
Cards (17)
- functional group: R-OH, where R is an alkyl group, bond angle 104.5 (2 lone pairs)
- position of OH group is denoted by including the number of the carbon it is attached to
- primary alcohol: 1 carbon bonded to the carbon adjacent to the oxygen
- secondary alcohol: 2 carbons bonded to the carbon adjacent to the oxygen
- tertiary alcohol: 3 carbons bonded to the carbon adjacent to the oxygen
- alcohols have higher boiling points than the parent alkanes due to hydrogen bonds which are stronger than London Forces. alcohols are also soluble in water
- the carbon-oxygen bond and the oxygen-hydrogen bond are polar bonds, due to the difference in electronegativity in the atoms
- the delta positive carbon bond attracts nucleophiles which attack the carbon bond
- combustion of alcohols:
- alcohols always combust completely
- oxidation of alcohols:
- primary alcohols -> aldehydes -> carboxylic acids
- secondary -> ketones
- alcohols are oxidised by acidified potassium dichromate, which is reduced itself
- 1o alcohol -> aldehyde:
- distillation apparatus is used
- aldehydes have lower boiling points than the alcohols so they evaporate and condense
- the aldehyde is thus removed from the oxidising agent and is not oxidised further
- 1o alcohol -> carboxylic acid:
- reflux apparatus is used
- the aldehyde is not removed from the round bottom flask so it continues to oxidise into a carboxylic acid
- reflux:
- used when heating volatile organic reagents that would evaporate if heated openly
- the vertical condenser cools products which drip back into the round bottom flask
- anti-bumping granules are added to ensure smooth boiling and allow smaller bubbles to form
- the round bottom flask allows for even distribution of heat
- 2o alcohols -> ketone:
- heat under reflux
- acidified potassium dichromate turns from orange to green when reduced in oxidation of alcohols
- substitution of alcohols to haloalkanes:
- alcohols react with hydrogen halides to form haloalkanes
- the hydrogen halide is formed in situ from heating sulfuric acid and a sodium halide
- heat the alcohol, sulfuric acid and soidum halide in reflux apparatus
- dehydration of alcohols:
- alcohol -> alkene
- elimination reaction
- reagent: conc. acid e.g. phosphoric acid
- conditions: heat