propenal). Consider first Mulliken charges and bond orders of the enolate
(Fig.6.9a). The AM1 and PM3 charges, which are essentially the same, are a bit
surprising in that the carbon which shares charge with the oxygen in the alternative
resonance structure is given a bigger charge than the oxygen; intuitively, one
expects most of the negative charge to be on the more electronegative atom,
oxygen; this “defect” of AM1 and PM3 has been noted by Anh et al. [ 110 ]. The
HF/3-21G(*)method gives the oxygen the bigger charge ("0.80 versus"0.67). The
two semiempirical and the HF methods all give C/C and C/O bond orders of about
1.5; this, and the rough equality of O and C charges, suggests approximately equal
contributions from the O-anion and C-anion resonance structures.
–0.76 AM1, ESP
–0.80 PM3, ESP
- 0.82 HF / 3-21G, ESP
- 0.92
- 0.94
–1.13
1.48 AM1, Mulliken
1.47 PM3, Mulliken
1.51 1.69 HF / 3-21G, Lowdin
1.50
1.61
H
- 0.37 AM1, ESP
- 0.35 PM3, ESP
- 0.63 HF / 3-21G, ESP
0.67
0.76
0.17 0.76
0.26
- 0.03
1.45 AM1, Mulliken
1.47 PM3, Mulliken
1.19 1.55 HF / 3-21G, Löwdin
1.18
1.29
1.69
1.71
1.76
O+
O+
H
1.45 AM1
1.47 PM3
1.19 1.18 HF / 3-21G
1.18
1.15
1.69
1.71
1.59
- 0.11 AM1
- 0.08 PM3
- 0.63 HF / 3-21G
0.30
0.42
0.09 0.45
0.23
- 0.25
O–
O–
1.48 AM1
1.47 PM3
1.51 1.49 HF / 3-21G
1.50
1.42
- 0.60 AM1
- 0.65 PM3
- 0.80 HF / 3-21G
- 0.66
- 0.72
- 0.67
ab
cd
All Mulliken All Mulliken
Fig. 6.9Atom charges and bond orders calculated using the AM1, PM3 and HF/3–21G()
methods. In a and b the charges and bond orders are all from the Mulliken approach. In c and d
the charges are all electrostatic potential charges, and the bond orders are Mulliken for AM1 and
PM3, and L€owdin for HF/3–21G()(L€owdin bond orders were not available for AM1 and PM3
from the Spartan program used). Note that charges and bond orders involving hydrogens have been
omitted
430 6 Semiempirical Calculations