19.5:

Structure of Amines

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Organic Chemistry
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JoVE 核 Organic Chemistry
Structure of Amines

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01:19 min

April 30, 2023

The hybridized nitrogen atom in amines possesses a lone pair of electrons and is bound to three substituents with a bond angle of around 108°, which is less than the tetrahedral angle of 109.5°. However, the C–N–H bond angle is slightly larger at 112°, with a carbon–nitrogen bond length of 147 pm. This carbon–nitrogen bond length of of amines is longer than the carbon–oxygen bond of alcohols (143 pm) but shorter than alkanes’ carbon–carbon bond (154 pm). These aspects are illustrated in Figure 1.

Figure1

Figure 1. The influence of the lone pair on the bond angle and bond lengths in amines.

Aliphatic amines have trigonal pyramidal geometry, where the pyramid’s apex is occupied by nitrogen, and the three substituents extend toward the triangular base of the pyramid. The nonbonded electron pair is present above the apex of the nitrogen atom. The nitrogen atom in amines with its lone pair and three different substituents becomes a stereogenic center. This results in two nonsuperposable mirror images of enantiomers. The configuration of these enantiomers can be assigned by giving the lowest priority to the unshared electron pair on the nitrogen atom.

Figure2

Figure 2. Pyramidal inversion in amines with a lone pair.

As shown in Figure 2, there is a rapid interconversion via the pyramidal inversion of one enantiomer to the other through an sp2-hybridized transition state, making the resolution of enantiomers difficult. As a result, such chiral amines are optically inactive. For most simple amines, the energy barrier of interconversion is about 25 kJ mol−1.

However, this is not the case with quaternary ammonium salts. As depicted in Figure 3, quaternary ammonium salts, with four different substituents and no electron pair, don’t undergo pyramidal inversion. Hence, they can be easily resolved. Besides quaternary ammonium salts, amines with chiral carbons and amines which cannot attain an sp2-hybridized transition state can also be separated into a pair of enantiomers.

Figure3

Figure 3. The chiral enantiomers of quaternary ammonium salts.