- In some ways the ideal solvent for an SN2 reaction would be a nonpolar aprotic
solvent such as a hydrocarbon or a relatively nonpolar chlorinated hydrocarbon.
- They have low boiling points, they are inexpensive, and they are relatively
stable. - Hydrocarbon or chlorinated hydrocarbon were seldom used for nucleophilic
substitution reactions because of their inability to dissolve ionic compounds.
- Phase-transfer catalysts are used with two immiscible phases in contact –––
often an aqueous phase containing an ionic reactant and an organic (benzene,
CHCl 3 , etc.) containing the organic substrate.
- Normally the reaction of two substances in separate phases like this is inhibited
because of the inability of the reagents to come together. - Adding a phase-transfer catalyst solves this problem by transferring the ionic
reactant into the organic phase.
i) Because the reaction medium is aprotic, an SN2 reaction occurs rapidly.
- Phase-transfer catalysis:
Figure 11.5 Phase-transfer catalysis of the SN2 reaction between sodium cyanide
and an alkyl halide.