Chemistry Reference
In-Depth Information
Note also that if the substrate has both aldehyde
and ketone functions the aldehyde will act as the
electrophile. The ketoaldehyde shown forms the one
product in good yield, there now being restrictions
on preferred ring size and the regiochemistry of the
mixed aldol reaction.
H
H
OH
H
CH
3
CH
3
−
H
2
O
KOH
O
O
CH
3
CH
3
O
O
O
6-oxoheptanal
O
acetylcyclopentene
aldehyde better
electrophilethan ketone
H
O
H
O
CHO
OH
O
O
CH
3
CH
3
CH
3
If a five- or six-membered ring can form, then
intramolecular aldol reactions usually occur more
rapidly than the corresponding intermolecular reac-
tions between two molecules of substrate. This pro-
vides a very useful route to cyclic compounds (see
Box 10.19).
delocalization of charge. Both cyano (nitrile) and
nitro groups can fulfil the same role as a carbonyl by
stabilizing a carbanion, so we see similar enhanced
acidity of
-protons in simple nitrile and nitro com-
pounds. p
K
a
values for nitriles are about 25, whereas
aliphatic nitro compounds have p
K
a
about 10. Nitro
compounds are thus considerably more acidic than
aldehydes and ketones (p
K
a
about 20).
Accordingly, it is possible to generate analogues of
enolate anions containing cyano and nitro groups, and
to use these as nucleophiles towards carbonyl elec-
trophiles in
aldol-like processes
. Simple examples
are shown.
α
10.4 Other stabilized anions as
nucleophiles: nitriles and
nitromethane
An enolate anion behaves as a carbanion nucle-
ophile, the carbonyl group stabilizing the anion by
O
O
CH
CH
enolate anion;
carbonyl stabilizes
carbanion by delocalization
p
K
a
25
e.g. CH
3
CN
CC
N
CCN
acetonitrile
cyano (nitrile) and nitro
are also able to stabilize
carbanions
O
O
e.g. CH
3
NO
2
nitromethane
p
K
a
10
CN
CN
O
O
