PROBLEM 7
Under what circumstances can you assume that the less stable reactant will be the more
reactive reactant?
Why is the transition state for the first step of an electrophilic addition reaction for
an alkyne less stable than that for an alkene? The Hammond postulate predicts that the
structure of the transition state will resemble the structure of the intermediate
(Section 4.3). The intermediate formed when a proton adds to an alkyne is a vinylic
242 CHAPTER 6 Reactions of Alkynes • Introduction to Multistep Synthesis
Free energy
Progress of the reaction
∆G‡alkyne
alkene
vinylic
cation
alkyne
alkene
∆G‡ alkyl cation
an alkyne is less
reactive than an alkene
an alkyne is less
stable than an alkene
Figure 6.2N
Comparison of the free energies of
activation for the addition of an
electrophile to an alkyne and to an
alkene. Because an alkyne is less
reactive than an alkene toward
electrophilic addition, we know
that for the reaction of an
alkyne is greater than the for
the reaction of an alkene.
¢G‡
¢G‡
proton. In the second step of the reaction, the positively charged carbocation interme-
diate reacts rapidly with the negatively charged chloride ion.
Thus alkynes, like alkenes, undergo electrophilic addition reactions. We will see
that the same electrophilic reagents that add to alkenes also add to alkynes and that—
again like alkenes—electrophilic addition to a terminalalkyne is regioselective: When
an electrophile adds to a terminal alkyne, it adds to the spcarbon that is bonded to the
hydrogen. The addition reactions of alkynes, however, have a feature that alkenes do
not have: Because the product of the addition of an electrophilic reagent to an alkyne
is an alkene, a second electrophilic addition reaction can occur.
An alkyne is lessreactive than an alkene. This might at first seem surprising because
an alkyne is less stable than an alkene (Figure 6.2). However, reactivity depends on
which in turn depends on the stability of the reactant andthe stability of the tran-
sition state (Section 3.7). For an alkyne to be both less stable and less reactive than an
alkene, two conditions must hold: The transition state for the first step (the rate-limiting
step) of an electrophilic addition reaction for an alkyne must be less stable than the tran-
sition state for the first step of an electrophilic addition reaction for an alkene,andthe
difference in the stabilities of the transition states must be greater than the difference in
the stabilities of the reactants so that ¢Galkyne‡ 7¢Galkene‡ (Figure 6.2).
¢G‡,
CH 3 CCHCCH 3 CH 3 C CHCH 3 3 CCH 2 CH 3
Cl Cl
Cl
HCl HCl
a second electrophilic
addition reaction occurs
CH 3 C CCH 3 + H Cl CHCH 3 + Cl CH 3 C CHCH 3
+ −
CH 3 C
Cl
Alkynes are less reactive than alkenes in
electrophilic addition reactions.
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