BH 3
disiamylborane
248 CHAPTER 6 Reactions of Alkynes • Introduction to Multistep Synthesis
PROBLEM 12
Draw all the enol tautomers for each of the ketones in Problem 11.
6.7 Addition of Borane: Hydroboration–Oxidation
Borane adds to alkynes in the same way it adds to alkenes. That is, one mole of
reacts with three moles of alkyne to form one mole of boron-substituted alkene
(Section 4.9). When the addition reaction is over, aqueous sodium hydroxide and hy-
drogen peroxide are added to the reaction mixture. The end result, as in the case of
alkenes, is replacement of the boron by an OH group. The enol product immediately
rearranges to a ketone.
In order to obtain the enol as the product of the addition reaction, only one equiva-
lent of can be allowed to add to the alkyne. In other words, the reaction must stop
at the alkene stage. In the case of internal alkynes, the substituents on the boron-
substituted alkene prevent the second addition from occurring. However, there is less
steric hindrance in a terminal alkyne, so it is harder to stop the addition reaction at the
alkene stage. A special reagent called disiamylborane has been developed for use with
terminal alkynes (“siamyl”stands for secondary iso amyl; amyl is a common name for
a five-carbon fragment). The bulky alkyl groups of disiamylborane prevent a second
addition to the boron-substituted alkene. So borane can be used to hydrate internal
alkynes, but disiamylborane is preferred for the hydration of terminal alkynes.
The addition of borane (or disiamylborane) to a terminal alkyne exhibits the same re-
gioselectivity seen in borane addition to an alkene. Boron, with its electron-seeking
empty orbital, adds preferentially to the spcarbon bonded to the hydrogen. In the sec-
ond step of the hydroboration–oxidation reaction, boron is replaced by an OH group.
The overall reaction is anti-Markovnikovaddition because the hydrogen does notadd to
the spcarbon bonded to the greater number of hydrogens. In hydroboration–oxidation,
is not the electrophile, is the nucleophile. The reaction, however,doesfollow
the general rule for electrophilic addition reactions: The electrophile adds to the
spcarbon bonded to the greater number of hydrogens. Consequently, mercuric-ion-
catalyzed addition of water to a terminal alkyne produces a ketone(the carbonyl group
(BH 3 )
H+ H≠-
BH 3
R
R
3 CH 3 C CCH 3 + BH (^3) H
THF 2 O
HO−, H 2 O 2
B
3
OH
O
3 CH 3 CH 2 CCH 3
boron-substituted alkene
an enol
H 3 C
H
CH 3
CC
H 3 C
H
CH 3
CC
BH 3
Addition of water to a terminal alkyne
forms a ketone.
3-D Molecule:
Disiamylborane
an enol
CH 3 CH 3
CH CHCH 3
O
CH 3 CH 2 CH 2 CH
CH 3 CH 2 CCH+ BH H
2 O
HO−, H 2 O 2
bis(1,2-dimethylpropyl)borane
disiamylborane
CH 3
2
CH 3
CH 3 CH CH
B 2
CH 3 CH 2
H
H
CC
OH
CH 3 CH 2
H
H
CC
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