370 CHAPTER 10 Substitution Reactions of Alkyl Halides
An aprotic solvent does not contain a
hydrogen bonded to either an oxygen
or a nitrogen; it is not a hydrogen bond
donor.
an iodide ion (a weak base) and the solvent than between a fluoride ion (a stronger
base) and the solvent. As a result, iodide ion is a better nucleophile than fluoride ion in
a protic solvent (Table 10.2).Fluoride ion would be a better nucleophile in a nonpolar solventthan in a polar sol-
vent because there would be no ion–dipole interactions between the ion and the nonpo-
lar solvent. However, ionic compounds are insoluble in most nonpolar solvents, but they
can dissolve in aprotic polar solvents, such as dimethylformamide (DMF) or dimethyl-
sulfoxide (DMSO). An aprotic polar solvent is not a hydrogen bond donor because it
does not have a hydrogen attached to an oxygen or to a nitrogen, so there are no posi-
tively charged hydrogens to form ion–dipole interactions. The molecules of an aprotic
polar solvent have a partial negative charge on their surface that can solvate cations, but
the partial positive charge is on the insideof the molecule, which makes it less accessi-
ble. The relatively “naked”anion can be a powerful nucleophile in an aprotic polar sol-
vent. Fluoride ion, therefore, is a better nucleophile in DMSO than it is in water.PROBLEM 5Indicate whether each of the following solvents is protic or aprotic:
a. chloroform c. acetic acid
b. diethyl ether (CH 3 CH 2 OCH 2 CH 3 ) d. hexane [CH 3 (CH 2 ) 4 CH 3 ](CHCl 3 ) (CH 3 COOH)δδ−−δ−δ−δ+δ+δ+δ+
δ−δ+
δ+δ+δ+ H
Y− HOHH
OHH
OHO Hion–dipole interactions
between a nucleophile
and water3-D Molecules:
N,N-Dimethylformamide;
Dimethyl sulfoxideN,N-dimethylformamide
DMFC
H CH 3Oδ−CH 3Ndimethyl sulfoxide
DMSOH 3 CCH 3the δ− is on the surface
of the moleculeSOδ−
δ+δ+the δ+ is not
very accessibleδ+δ+δ+δ−
δ+ δ−
δ−CH 3CH 3 CH 3CH 3 CH 3CH 3 CH 3CH 3
SSOδ−OOK+OSSDMSO can solvate a cation better
than it can solvate an anionincreasing nucleophilicityTable 10.2 Relative Nucleophilicity Toward CH 3 l in MethanolRS− > I−^ > −C N > CH 3 O− > Br−^ > NH 3 > Cl− > F−^ > CH 3 OH