220 CHAPTER 5 Stereochemistry
In discussing the stereochemistry of electrophilic addition reactions, we will look
first at reactions that form a product with one asymmetric carbon. Then we will look at
reactions that form a product with two asymmetric carbons.
Addition Reactions that Form One Asymmetric Carbon
When a reactant that does not have an asymmetric carbon undergoes a reaction that
forms a product with oneasymmetric carbon, the product will be a racemic mixture.
For example, the reaction of 1-butene with HBr forms identical amounts of
(R)-2-bromobutane and (S)-2-bromobutane. Thus, an electrophilic addition reaction
that forms a compound with one asymmetric carbon from a reactant without any
asymmetric carbons is not stereoselective because it does not select for a particular
stereoisomer. Why is this so?
You will see why a racemic mixture is obtained if you examine the structure of
the carbocation formed in the first step of the reaction. The positively charged
carbon is hybridized, so the three atoms to which it is bonded lie in a plane
(Section 1.10). When the bromide ion approaches the positively charged carbon
from above the plane, one enantiomer is formed, but when it approaches from below
the plane, the other enantiomer is formed. Because the bromide ion has equal access
to both sides of the plane, identical amounts of the Rand Senantiomers are obtained
from the reaction.
PROBLEM 41
a. Is the reaction of 2-butene with HBr regioselective?
b. Is it stereoselective?
c. Is it stereospecific?
d. Is the reaction of 1-butene with HBr regioselective?
e. Is it stereoselective?
f. Is it stereospecific?
When HBr adds to 2-methyl-1-butene in the presence of a peroxide, the product has
one asymmetric carbon. Therefore, we can predict that identical amounts of the Rand
Senantiomers are formed.
CH 3 CH 2 CCH 2
CH 3
2-methyl-1-butene
+ HBr
peroxide
CH 3 CH 2 CHCH 2 Br
CH 3
1-bromo-2-methylbutane*
asymmetric
carbon
CH 3
CH 3
C
C
CH 3 CH 2 Br−
(S)-2-bromobutane
(R)-2-bromobutane
H
+
CH 3
CH 3 CH 2 H
Br
C
Br
CH 3 CH 2
H
sp^2
Tutorial:
Review addition of HBr
tutorial in Chapter 3