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4: Aldehydes and Ketones

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    • 4.1: The Carbonyl Group
      The carbonyl group is formed when an O atom and a C atom are joined by a double bond. It is a part of other functional groups like aldehydes, ketones and carboxylic acids.
    • 4.2: Aldehydes and Ketones- Structure and Names
      The common names of aldehydes are taken from the names of the corresponding carboxylic acids: formaldehyde, acetaldehyde, and so on. The common names of ketones, like those of ethers, consist of the names of the groups attached to the carbonyl group, followed by the word ketone. Stem names of aldehydes and ketones are derived from those of the parent alkanes, using an -al ending for an aldehydes and an -one ending for a ketone.
    • 4.3: Properties of Aldehydes and Ketones
      The polar carbon-to-oxygen double bond causes aldehydes and ketones to have higher boiling points than those of ethers and alkanes of similar molar masses but lower than those of comparable alcohols that engage in intermolecular hydrogen bonding.
    • 4.4: Some Common Aldehydes and Ketones
      Aldehydes and ketones are the active components in many familiar substances
    • 4.5: Oxidation of Aldehydes
      Aldehydes are readily oxidized to carboxylic acids, whereas ketones resist oxidation.
    • 4.6: Reduction of Aldehydes and Ketones
      This page looks at the reduction of aldehydes and ketones by two similar reducing agents - lithium tetrahydridoaluminate(III) (also known as lithium aluminium hydride) and sodium tetrahydridoborate(III) (sodium borohydride).
    • 4.7: Addition of Alcohols to form Hemiacetals and Acetals
      Alcohols (R-OH) add to carbonyl groups to form acetals. This reaction is commonly seen in the formation of cyclic structures in sugar molecules.

    4: Aldehydes and Ketones is shared under a mixed license and was authored, remixed, and/or curated by LibreTexts.

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