Carbonyl Compounds (Edexcel A Level Chemistry)

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Richard

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Aldehydes & Ketones

  • Aldehydes and ketones contain the carbonyl functional group, C=O
  • This is why aldehydes and ketones are also known as carbonyls
  • The difference between aldehydes and ketones is the groups bonded to the carbon of the carbonyl group

Aldehydes & Ketones, downloadable AS & A Level Chemistry revision notes

  • The carbonyl group in an aldehyde is always situated at the end of the chain
    • When naming aldehydes, you do not include the '1' in the name, the carbonyl carbon is always number 1 on the chain
    • The simplest aldehyde is methanal, HCHO, with the only carbon being that of the carbonyl group

  • The carbonyl group in a ketone is always situated in the middle of the chain
    • The simplest ketone is propan-2-one, CH3COCH3, as you need an alkyl group either side of the carbonyl carbon in a ketone

Aldehyde and Ketone Examples Table

Carbonyls & Hydrogen Bonding

Intermolecular forces of carbonyls

  • Aldehydes and ketones have a dipole within their structure due to the electronegative oxygen of the carbonyl group

7.2.3 carbonyl dipole, downloadable AS & A Level Chemistry revision notes

The carbonyl group has a dipole with a δ+ carbon and a δ– oxygen 

  • This means that aldehydes and ketones have permanent dipole-dipole interactions and London forces between molecules
  • There are no polar bonds in aldehydes or ketones that can result in a δ+ hydrogen for hydrogen bonding, e.g. O-H, N-H
  • Therefore, the melting and boiling points of aldehydes and ketones are lower than their corresponding alcohol

Table Comparing Boiling Points for Aldehydes, Ketones and their Equivalent Alcohols

edexcel-7-2-1-boiling-point-data

Hydrogen bonding

  • Although carbonyls cannot hydrogen bond with themselves, they do have the lone pairs on their oxygen 
  • This means that smaller aldehydes and ketones are able to hydrogen bond with water
    • The δ– oxygen atom from the carbonyl uses its lone pairs to form hydrogen bonds with the δ+ hydrogen from water
  • As a result of this hydrogen bonding, smaller aldehydes and ketones will dissolve in water
  • Larger aldehydes and ketones have longer hydrocarbon chains which cannot hydrogen bond with water
    • These hydrocarbon chains can disrupt the hydrogen bonding within water but cannot form hydrogen bonds themselves
  • If a carbonyl compound is large enough, they will not dissolve in water
    • To understand this, you have to consider:
      • The intermolecular forces (London forces) between the carbonyl molecules
      • The hydrogen bonding within water
      • The potential hydrogen bonding of the carbonyl molecule with water
    • In order to dissolve, the strength of the potential hydrogen bonding of the carbonyl with water must be higher than the combined strength of the intermolecular forces of the carbonyl and the hydrogen bonding of water

hbonding-in-aldehydes-and-ketones

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Richard

Author: Richard

Expertise: Chemistry

Richard has taught Chemistry for over 15 years as well as working as a science tutor, examiner, content creator and author. He wasn’t the greatest at exams and only discovered how to revise in his final year at university. That knowledge made him want to help students learn how to revise, challenge them to think about what they actually know and hopefully succeed; so here he is, happily, at SME.