Carboxylic Acids and Esters

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Rory

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  • carboxylic acids are produced by oxidation of primary alcohols under reflux
  • Carboxylic acids dissolve in polar solvents like water as they hydrogen bond with water molecules
    ->The hydrocarbon part doesn't hydrogen bond therefore the longer the hydrocarbon chain, the less soluble the carboxylic acid
  • Carboxylic acids are weak acids as only partially dissociate in water to form a carboxylate anion.
    • equilibrium lies to the left hand side as it dissociates poorly
    • anion is stable due to delocalisation (like in benzene)
  • Oxidation of Carboxylic acids only occurs in methanoic acid
  • acid + metal -> salt + hydrogen
  • acid + alkali -> salt + water
  • Acid + carbonate -> salt + carbon dioxide + water
  • what is the test for acids?
    Carbonate to produce carbon dioxide (bubble through limewater)
  • esterfication:
    Carboxylic acids + alcohol -> ester + water
    • catalyst: concentrated H2SO4
    • condensation reaction as produces a small molecule
  • Esters are insoluble and have low boiling points (can't H bond like Carboxylic acids)
  • hydrolysis- converts esters to alcohols and carboxylic acids by adding water. Two types: Acid catalysed and Base
  • Acid catalysed hydroysis:
    ester + water -> carboxylic acid + alcohol
    • dilute H2SO4 catalyst
    • heated under reflux
    • reversible reaction so poor yield- less favourable hydrolysis
  • Base hydrolysis (saponification):
    ester + base -> carbonate salt + alcohol
    carbonate salt + acid -> carboxylic acid
    • salts are used as soaps as have hydrophilic (polar head) and hydrophobic (non-polar chain) properties.
  • Carbon neutral:
    1. photosynthesis: 6 CO2 + 6 H2O -> C6H12O6 + 6 O2
    2. anaerobic respiration: C6H12O6 -> 2 CH3CH2OH + 2 CO2
    3. combustion: 2 CH3CH2OH + 6 O2 -> 4 CO2 + 6 H2O
    • 6 Co2 molecules on each side therefore carbon neutral
    • doesn't include: energy use or transport of materials
  • Triglycerides are lipids and can be either vegetable oils or animal fats.
    • veg oil: unsaturated, weak IMF as chains not close together therefore liquid at room temp
    • animal fats: saturated, strong IMF as chains close together therefore solid at room temp
  • Triglyceride ester:
    glycerol + fatty acid -> triglyceride
  • Glycerol (propane-1,2,3-triol) is soluble as forms H bonds and is used in cosmetics, food and glue.
  • Biodiesel ( base catalysed trans esterification)
    triglyceride + methanol -> glycerol + methyl ester (BIODIESEL)
    • with NaOH catalyst