benzene cyclohexane
A
s you continue your study of organic chemistry, you will
notice that the concept of having delocalized electrons is
invoked frequently to explain the behavior of organic
compounds. For example, in Chapter 8 you will see that having
delocalized electrons causes certain dienes to form products that
would not be expected on the basis of what you have learned about electrophilic addi-
tion reactions in Chapters 3–6. Electron delocalization is such an important concept
that this entire chapter is devoted to it.
Electrons that are restricted to a particular region are called localized electrons.
Localized electrons either belong to a single atom or are confined to a bond between
two atoms.
Not all electrons are confined to a single atom or bond. Many organic compounds
contain delocalizedelectrons. Delocalized electronsneither belong to a single atom
nor are confined to a bond between two atoms, but are shared by three or more atoms.
You were first introduced to delocalized electrons in Section 1.19, where you saw that
the two electrons represented by the bond of the group are shared by three
atoms—the carbon and both oxygen atoms. The dashed lines indicate that the two
electrons are delocalized over three atoms.
In this chapter, you will learn to recognize compounds that contain delocalized
electrons and to draw structures that represent the electron distribution in molecules
O
δ–
O
δ–
delocalized
electrons
CH 3 C
p COO-
localized electrons
CH 3 NH 2
localized electrons
CH 3 CH CH 2
7
Electron Delocalization
and Resonance •
More About Molecular
Orbital Theory
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