5.11 Solubility of Organics

5.11.1 Aliphatic Hydrocarbons

Hydrocarbons do not mix well with water. The longer the hydrocarbon, the more dispersion and the lower the solubility.

Figure 5.22: Aqueous solubility of some aliphatic hydrocarbons at 25 °C.

Structures

Butane, C4H10

Pentane, C5H12

Hexane, C6H14

Heptane, C7H16

Octane, C8H18

Nonane, C9H20


5.11.2 Alcohols

Alcohols contain an –OH functional group and can increase the solubility of a compound.

Figure 5.23: Aqueous solubility of some alcohols at 25 °C.


Structures

1-Butanol, C4H9OH

1-Pentanol, C5H11OH

1-Hexanol, C6H13OH

1-Heptanol, C7H15OH

1-Octanol, C8H17OH

1-Nonanol, C9H19OH


5.11.3 Aromatic Compounds

Aromatic compounds contain one or more rings with delocalized pi electrons and are not very soluble in water.

Figure 5.24: Aqueous solubility of some aromatic compounds at 25 °C.

Structures

Benzene, C6H6

Naphthalene, C10H8

Anthracene, C14H10

Pyrene, C16H10

Benzo[a]pyrene, C20H12


5.11.4 Functionalized Aromatics

Modifying aromatic compounds by adding other atoms or functional groups to the aromatic ring can increase the solubility of the molecule depending on the functional group.

Figure 5.25: Aqueous solubility of some functionalized aromatics at 25 °C.

Structures

Benzene, C6H6

Toluene, C7H8

Phenol, C6H6O

Aniline, C6H5NH2

Nitrobenzene, C6H5NO2

Bromobenzene, C6H5Br




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