Carbonyl group — structure?
C=O double bond, sp2 hybridized carbon.
Aldehydes — nomenclature?
Named with -al suffix, chain numbered from aldehyde carbon.
Ketones — nomenclature?
Named with -one suffix, numbered from nearest carbonyl.
Preparation of aldehydes?
Oxidation of primary alcohols with PCC.
Preparation of ketones?
Oxidation of secondary alcohols with K₂Cr₂O₇.
Physical property — boiling point?
Higher than hydrocarbons, lower than alcohols.
Physical property — solubility?
Soluble in water if small; decreases with chain length.
Reactions — key type?
Nucleophilic addition to the carbonyl carbon.
Reactivity — aldehyde vs ketone?
Aldehydes are generally more reactive.
Carboxyl group structure?
Carbonyl attached to hydroxyl (-COOH).
Resonance in carboxylates?
Negative charge delocalized over two oxygens.
Acidity influenced by?
Electron-withdrawing groups increase acidity.
Derivatives of carboxylic acids?
Esters, amides, acyl chlorides, anhydrides.
Preparation of benzaldehyde?
Side chain chlorination and hydrolysis.
Industrial synthesis of benzaldehyde?
Chromyl chloride oxidation and Gatterman-Koch reaction.
Applications of aldehydes?
Flavors, fragrances, solvents, plastics.
Applications of ketones?
Solvents, starting materials in synthesis.
Key reaction mechanism?
Nucleophilic attack on the carbonyl carbon.
Teste seu conhecimento com 9 perguntas sobre Carbonyl Chemistry Masterclass.
1. What is the carbonyl functional group characterized by?
2. Who developed the Gatterman-Koch reaction for synthesizing aromatic aldehydes?
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