identical, two ketones are formed because the initial addition of the proton can occur
to either of the spcarbons.
Terminal alkynes are less reactive than internal alkynes toward the addition of
water. Terminal alkynes will add water if mercuric ion is added to the acidic
mixture. The mercuric ion acts as a catalyst to increase the rate of the addition
reaction.
The first step in the mercuric-ion-catalyzed hydration of an alkyne is formation of a
cyclic mercurinium ion. (Two of the electrons in mercury’s filled 5datomic orbital are
shown.) This should remind you of the cyclic bromonium and mercurinium ions
formed as intermediates in electrophilic addition reactions of alkenes (Sections 4.7
and 4.8). In the second step of the reaction, water attacks the most substituted carbon
of the cyclic intermediate (Section 4.8). Oxygen loses a proton to form a mercuric
enol, which immediately rearranges to a mercuric ketone. Loss of the mercuric ion
forms an enol, which rearranges to a ketone. Notice that the overall addition of water
follows both the general rule for electrophilic addition reactions and Markovnikov’s
rule: The electrophile ( in the case of Markovnikov’s rule) adds to the spcarbon
bonded to the greater number of hydrogens.
PROBLEM 10
What ketones would be formed from the acid-catalyzed hydration of 3-heptyne?
PROBLEM 11
Which alkyne would be the best reagent to use for the synthesis of each of the following
ketones?
a. b. c.
O
CH 3 C
O
CH 3 CH 2 CCH 2 CH 2 CH 3
O
CH 3 CCH 3
H+
CH 3 CH 2 CCH+ H 2 O
H 2 SO 4
HgSO 4
OH O
CH 3 CH 2 CCH 2 CH 3 CH 2 CCH 3
an enol a ketone
(Hg^2 +)
O
CH 3 CH 2 C CCH 2 CH 3 H 2 OCH 3 CH 2 CCH 2 CH 2 CH 3
H 2 SO 4
+
H 2 SO 4
O O
CH 3 C CCH 2 CH 3 + H 2 OCH 3 CCH 2 CH 2 CH 3 + CH 3 CH 2 CCH 2 CH 3
Section 6.6 Addition of Water 247
Tutorial:
Mercuric-ion-catalyzed
hydration of an alkyne
+
H 2 O + Hg^2 +
Hg+
H 3 O
+
H +
2 O
Hg^2 +
CH 3 CCH H
2 O
Hg+
OH
CH 3 CCH
H
Hg+
OH
CH 3 CCH
OH
CH 3 CCH 2
O
O+
H
CH 3 CCH 2
HH
O
CH 3 CCH 3
mechanism for the mercuric-ion-catalyzed hydration of an alkyne
a mercuric enol
a mercuric ketone
Hg^2 +
CH 3 CCH
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