b. Draw the conjugate bases and list them in order of decreasing basicity.
First remove a proton from each acid to get the structures of the conjugate bases, and
then recall that the stronger the acid, the weaker its conjugate base.
Now continue on to Problem 19.
PROBLEM 19
List the following species in order of decreasing basicity:
6.10 Synthesis Using Acetylide Ions
Reactions that form carbon–carbon bonds are important in the synthesis of organic
compounds because without such reactions, we could not convert molecules with
small carbon skeletons into molecules with larger carbon skeletons. Instead, the prod-
uct of a reaction would always have the same number of carbons as the starting
material.
One reaction that forms a carbon–carbon bond is the reaction of an acetylide ion
with an alkyl halide. Only primary alkyl halides or methyl halides should be used in
this reaction.
The mechanism of this reaction is well understood. Bromine is more electronega-
tive than carbon, and as a result, the electrons in the bond are not shared equal-
ly by the two atoms. This means that the bond is polar, with a partial positive
charge on carbon and a partial negative charge on bromine. The negatively charged
acetylide ion (a nucleophile) is attracted to the partially positively charged carbon (an
electrophile) of the alkyl halide. As the electrons of the acetylide ion approach the car-
bon to form the new carbon–carbon bond, they push out the bromine and its bonding
electrons because carbon can bond to no more than four atoms at a time. This is an ex-
ample of an alkylation reaction. An alkylation reactionattaches an alkyl group to the
starting material.
The mechanism of this and similar reactions will be discussed in greater detail in
Chapter 10. At that time we will also see why the reaction works best with primary
alkyl halides and methyl halides.
Simply by choosing an alkyl halide of the appropriate structure, terminal alkynes
can be converted into internal alkynes of any desired chain length.
1-pentyne 4-decyne
- NaNH 2
CH 3 CH 2 CH 2 C CH 2. CH 3 CH 2 CH 2 CH 2 CH 2 Cl CH 3 CH 2 CH 2 C CCH 2 CH 2 CH 2 CH 2 CH 3
CH 3 CH 2 CCHC− + 3 CH 2 CH 2 Br CH 3 CH 2 CBrCCH 2 CH 2 CH 3 + −
δ+δ−
C¬Br
C¬Br
3-heptyne
CH 3 CH 2 CCHC− + 3 CH 2 CH 2 Br CH 3 CH 2 CBrCCH 2 CH 2 CH 3 + −
CH 3 CH 2 CH CH CH 3 CH 2 CC CH 3 CH 2 CH 2 CH 2
CH 3 CH 2 OF CH 3 CC NH 2
a.
b. − − − −
−−−
relative basicities CH 3 CH 2 NH 2 > CH 3 CH NH > CH 3 C N
relative acidities CH 3 C NH >
+
CH 3 CH NH 2 > CH 3 CH 2 NH 3
++
Section 6.10 Synthesis Using Acetylide Ions 253
3-D Molecules:
Anion of 1-butyne;
1-bromopropane
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