Solvent Effects
The solvent consideration is worth spending a bit more time on. In polar protic solvents,
nucleophilicity increases down the periodic table. In polar aprotic solvents, nucleophilicity increases
up the periodic table. Examples of both types of solvents are shown in Figure 4.3.
Figure 4.3. Examples of Polar Protic and Polar Aprotic SolventsThe halogens are good examples of the effects of the solvent on nucleophilicity. In protic solvents,
nucleophilicity decreases in the order:
I– > Br– > Cl– > F–This is because the protons in solution will be attracted to the nucleophile. F– is the conjugate base
of HF, a weak acid. As such, it will form bonds with the protons in solution and be less able to access
the electrophile to react. I–, on the other hand, is the conjugate base of HI, a strong acid. As such, it is
less affected by the protons in solution and can react with the electrophile.
MCAT EXPERTISE
If a solvent is not given on Test Day, assume that the reaction occurs in a polar solvent. Polar
solvents—whether protic or aprotic—can dissolve nucleophiles and assist in any reaction in
which electrons are moved. Organic chemistry is all about moving electrons, so it’s less
common for these reactions to be performed in nonpolar solvents.In aprotic solvents, on the other hand, nucleophilicity decreases in the order: