- The carbon-oxygen double bond consists of two electrons in a σ bond and two
electrons in a π bond.
- The π bond is formed by overlap of the carbon p orbital with a p orbital from the
oxygen atom. - The electron pair in the π bond occupies both lobes (above and below the plane
of the σ bonds).
Theπbondingmolecular
orbital of formaldehyde
(HCHO). The electron
pair of the π bond
occupies both lobes.- The more electronegative oxygen atom strongly attracts the electrons of both the σ
bond and the π bond, causing the carbonyl group to be highly polarized ⇒ the
carbon atom bears a substantial positive charge and the oxygen bears a substantial
negative charge.
- Resonance structures for the carbonyl group:
C
or
O +C O − Cδ+ Oδ−Resonance structure for the carbonyl group Hybrid
2) Carbonyl compounds have rather large dipole moments as a result of the polarity
of the carbon-oxygen bond.C
H 3 CH 3 C
δ+ Oδ−
HHC O+¡÷
H 3 CH 3 CC+¡÷
OFormaldehyde Acetone An electrostatic potential
μ = 2.27 D μ = 2.88 D map for acetone