Abstract
The standard heat of formation
(
Δ
H
f
∘
)
of corannulene (C
20H
10) is calculated based on 40 hyperhomodesmotic reactions constructed based on different schemes, under which resonance energy and/or nonplanar strain energy are considered.
The standard heat of formation
(
Δ
H
f
∘
)
of corannulene (C
20H
10) is calculated based on 40 hyperhomodesmotic reactions and compared with the existing experimental result. We found that: (1) the reliability of hyperhomodesmotic reactions depends on the construction scheme and the reference molecules; (2) both resonance energy and nonplanar strain energy should be considered during the construction of hyperhomodesmotic reactions. Two principles are proposed for the selection of reference molecules: (i) structurally similar to the object molecule; (ii) simple and small. Due to structural similarity, the above knowledge obtained from C
20H
10 is of great reference for polycyclic aromatic hydrocarbons and fullerenes.