1. Chapter 8 Amines

2. Structure and Classification
Amines are classified as 1°, 2°, or 3° depending on the number of carbon groups bonded to nitrogen.
Aliphatic amine: All carbons bonded to nitrogen are derived from alkyl groups. See the three above.

3. Structure and Classification
Aromatic amine: One or more of the groups bonded to nitrogen are aryl groups.

4. Structure and Classification
Heterocyclic amine: An amine in which the nitrogen atom is part of a ring.
Heterocyclic aliphatic amine: A heterocyclic amine in which the ring is saturated (has no C=C bonds).
Heterocyclic aromatic amine: The amine nitrogen is part of an aromatic ring.

5. Nomenclature IUPAC names
We derive IUPAC names for aliphatic amines just as we did for alcohols.
Drop the final -e of the parent alkane and replace it by - amine.
Use a number to locate the amino group on the parent chain.

6. Nomenclature IUPAC names (cont’d)
IUPAC nomenclature retains the common name aniline for C6H5NH2, the simplest aromatic amine.
Name simple derivatives of aniline by using numbers to locate substituents or, alternatively, use the prefixes ortho (o), meta (m), and para (p).
Several derivatives of aniline have common names that are still widely used; among them is toluidine:

7. Nomenclature IUPAC names (cont’d)
Name unsymmetrical secondary and tertiary amines as N- substituted primary amines.
Take the largest group bonded to nitrogen as the parent amine.
Name the smaller group(s) bonded to nitrogen, and show their location on nitrogen by using the prefix N- (indicating that they are bonded to nitrogen).

8. Nomenclature Common names
For most aliphatic amines, list the groups bonded to nitrogen in alphabetical order in one word ending in the suffix -amine.

9. Nomenclature Amine salts
When four atoms or groups of atoms are bonded to a nitrogen atom, as for example CH3NH3+, nitrogen bears a positive charge and is associated with an anion as a salt.
Name the compound as a salt of the corresponding amine.
Replace the ending –amine (or aniline or pyridine or the like) by -ammonium (or anilinium or pyridinium or the like) and add the name of the anion.

10. Examples Draw the structures of the following compounds
t-butylamine 3-methyl-1-butanamine
2,4,N,N-tetramehtyl-3-hexanamine

11. Physical Properties
Like ammonia, low-molecular-weight amines have very sharp, penetrating odors.
Trimethylamine, for example, is the pungent principle in the smell of rotting fish.
Two other particularly pungent amines are 1,4-butanediamine (putrescine) and 1,5-pentanediamine (cadaverine).

12. Physical Properties Figure 11.1 Amines are polar compounds:
Both 1° and 2° amines have N-H bonds, and can form hydrogen bonds with one another.
3° Amines have no N-H bond and cannot form hydrogen bonds with one another.

13. Physical Properties
An N-H---N hydrogen bond is weaker than an O-H---O hydrogen bond, because the difference in electronegativity between N and H ( = 0.9) is less than that between O and H ( = 1.4).
We see the effect of hydrogen bonding between molecules of comparable molecular weight by comparing the boiling points of ethane, methanamine, and methanol.

14. Physical Properties
All classes of amines form hydrogen bonds with water and are more soluble in water than are hydrocarbons of comparable molecular weight.
Most low-molecular-weight amines are completely soluble in water.
Higher-molecular-weight amines are only moderately soluble in water or are insoluble.

15. Basicity of Amines
Like ammonia, amines are weak bases, and aqueous solutions of amines are basic.
The acid-base reaction between an amine and water involves transfer of a proton from water to the amine.

16. Basicity of Amines
The base dissociation constant, Kb, for the reaction of an amine with water has the following form, illustrated for the reaction of methylamine with water to give methylammonium hydroxide.
pKb is defined as the negative logarithm of Kb.

17. Basicity of Amines

18. Basicity of Amines
Aliphatic amines have about the same base strength, and are slightly stronger bases than NH3.
Aromatic and heterocyclic aromatic.
amines are considerably weaker bases than aliphatic amines.
Note that while aliphatic amines are weak bases by comparison with inorganic bases such as NaOH, they are strong bases among organic compounds.

19. Basicity of Amines
Given the basicities of amines, we can determine which form of an amine exists in body fluids, say blood.
In a normal, healthy person, the pH of blood is approximately 7.40, which is slightly basic.
If an aliphatic amine is dissolved in blood, it is present predominantly as its protonated (conjugated acid) form.

20. Basicity of Amines
Assume that the amine, RNH2, has a pKb of 3.50 and that it is dissolved in blood, pH 7.40 (pOH 6.60).
We first write the base dissociation constant for the amine and then solve for the ratio of RNH3+ to RNH2.
Substituting values for Kb and OH- gives:

21. Basicity of Amines

22. Select the stronger base from each pair of amines

23. Reactions of Amines
The most important chemical property of amines is their basicity.
Amines, whether soluble or insoluble in water, react quantitatively with strong acids to form water-soluble salts.

24. Basicity of Amines
Example: Complete each acid-base reaction and name the salt formed.