α,β-Unsaturated carbonyl compounds can be subclassified according to the nature of the carbonyl and alkene groups. File:Methyl vinyl ketone.svg|
Methyl vinyl ketone, the simplest α,β-unsaturated ketone File:Acrolein-2D-skeletal-plus-H.png|
Acrolein, the simplest α,β-unsaturated aldehyde File:Methylacrylat.svg|
Methyl acrylate, an α,β-unsaturated ester File:Acrylamide-2D-skeletal.png|
Acrylamide, precursor to polyacrylamide File:Maleinsäure.svg|
Maleic acid, an α,β-unsaturated
dicarbonyl File:Fumarsäure.svg|
Fumaric acid, isomeric with maleic acid File:Acryloyl chloride2.png|
Acryloyl chloride File:1,3-Diphenylprophene-2-one.svg|
Chalcone Acryloyl group α,β-Unsaturated carbonyl compounds featuring a carbonyl conjugated to an alkene that is terminal, or
vinylic, contain the
acryloyl group (); it is the
acyl group derived from
acrylic acid. The
preferred IUPAC name for the group is
prop-2-enoyl, and it is also known as
acrylyl or simply (and incorrectly) as
acryl. Compounds containing an acryloyl group can be referred to as "acrylic compounds".
α,β-Unsaturated acids, esters, and amides An
α,β-unsaturated acid is a type of α,β-unsaturated carbonyl compound that consists of an
alkene conjugated to a
carboxylic acid. The simplest example is acrylic acid (). These compounds are prone to polymerization, giving rise to the large area of
polyacrylate plastics.
Acrylate polymers are derived from but do not contain the acrylate group. The carboxyl group of acrylic acid can react with
ammonia to form
acrylamide, or with an
alcohol to form an acrylate
ester. Acrylamide and
methyl acrylate are commercially important examples of α,β-unsaturated
amides and α,β-unsaturated esters, respectively. They also polymerize readily. Acrylic acid, its esters, and its amide derivatives feature the acryloyl group. α,β-Unsaturated
dicarbonyls are also common. The parent compounds are
maleic acid and the isomeric
fumaric acid. Maleic acid forms esters, an imide, and an anhydride, i.e.
diethyl maleate,
maleimide, and
maleic anhydride. Fumaric acid, as fumarate, is an intermediate in the
Krebs citric acid cycle, which is of great importance in bioenergy.
Enones An
enone (or
alkenone) is an organic compound containing both
alkene and
ketone functional groups. In an α,β-unsaturated enone, the alkene is
conjugated to the carbonyl group of the ketone. Certain specialized
enolic oxidations also form enones. The
selenoxide elimination and
Saegusa-Ito oxidation both effect a
leaving group near the ketone that spontaneously eliminates. When
N-tert-butyl benzenesulfinimidoyl chloride or
IBX oxidize an enolate, the result is 1,4-elimination. Finally, the
Meyer–Schuster rearrangement converts a
propargylic alcohol to an enone with acid.
Cyclic enones The cyclic enones include
cyclopropenone, cyclobutenone,
cyclopentenone,
cyclohexenone, and cycloheptenone. Cyclopentenones can be prepared via the
Pauson–Khand reaction or
Nazarov cyclization.
Enals An
enal (or
alkenal) is an organic compound containing both
alkene and
aldehyde functional groups. In an α,β-unsaturated enal, the alkene is
conjugated to the carbonyl group of the aldehyde (formyl group). The simplest enal is
acrolein (). Other examples include
cis-3-hexenal (essence of mowed lawns) and
cinnamaldehyde (essence of cinnamon). File:Crotonaldehyde.svg|
E-
Crotonaldehyde, an enal that exists as an isomer File:Cyclohexenone.png|
Cyclohexenone, common cyclic enone File:Testosteron.svg|
testosterone, the male sex hormone File:Zimtaldehyd - cinnamaldehyde.svg|
Cinnamaldehyde, essence of cinnamon File:P-Benzochinon.svg|
Paraquinone, a particularly electrophilic α,β-unsaturated carbonyl File:(benzylideneacetone)iron-tricarbonyl-2D-skeletal.png|Enone complex of iron tricarbonyl File:Squaric acid.svg|
Squaric acid ==Reactions of α,β-unsaturated carbonyls==