246 CHAPTER 6 Reactions of Alkynes • Introduction to Multistep Synthesis
PROBLEM 9
From what you know about the stereochemistry of alkene addition reactions, predict the
configurations of the products that would be obtained from the reaction of 2-butyne with
the following:
a. one equivalent of in b. one equivalent of
6.6 Addition of Water
In Section 4.5, we saw that alkenes undergo the acid-catalyzed addition of water. The
product of the reaction is an alcohol.
Alkynes also undergo the acid-catalyzed addition of water. The product of the reaction
is an enol. An enolhas a carbon–carbon double bond and an OH group bonded to one
of the carbons. (The ending “ene”signifies the double bond, and “ol”the OH.
When the two endings are joined, the final e of “ene”is dropped to avoid two consec-
utive vowels, but it is pronounced as if the ewere there,“ene-ol.”)
The enol immediately rearranges to a ketone. A carbon doubly bonded to an oxygen is
called a carbonyl (“car-bo-nil”)group. A ketoneis a compound that has two alkyl
groups bonded to a carbonyl group. An aldehydeis a compound that has at least one
hydrogen bonded to a carbonyl group.
A ketone and an enol differ only in the location of a double bond and a hydrogen.
Such isomers are called tautomers(“taw-toe-mers”). The ketone and enol are called
keto–enol tautomers. Interconversion of the tautomers is called tautomerization. We
will examine the mechanism of this reaction in Chapter 19. For now, the important
thing to remember is that the keto and enol tautomers come to equilibrium in solution,
and the keto tautomer, because it is usually much more stable than the enol tautomer,
predominates at equilibrium.
Addition of water to an internal alkyne that has the same group attached to each
of the spcarbons forms a single ketone as a product. But if the two groups are not
O
RCH 2 C
keto tautomer
tautomerization
R
OH
RCH C
enol tautomer
R
O
C
a carbonyl group
O
C
RR
a ketone
O
C
RH
an aldehyde
CH 3 C CCH 3 + H 2 O
H 2 SO 4
OH O
CH 3 C CHCH 3 CH 3 CCH 2 CH 3
an enol a ketone
sp^2
CH 3 CH 2 CH CH 2 + H 2 O CH 3 CH 2 CH CH 2
H 2 SO 4
OH H
2-butanol
1-butene
Br 2 CH 2 Cl 2 HBr+peroxide
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