An ab initio Valence Bond Study on Cyclopenta-Fused Naphthalenes and Fluoranthenes
Publication date
2005
Editors
Advisors
Supervisors
DOI
Document Type
Article
Metadata
Show full item recordCollections
License
Abstract
To probe the effect of external cyclopenta-fusion on a naphthalene core, ab initio valence bond (VB) calculations have been performed, using strictly atomic benzene p-orbitals and p-orbitals that are allowed to delocalize, on naphthalene (1), acenaphthylene (2), pyracylene (3), cyclopenta[b,c]-acenaphthylene (4), fluoranthene (5), and cyclopenta[c,d]fluoranthene (6). For the related compounds 1-4 and 5,6 the total resonance energies (according to Pauling's definition) are similar. Partitioning of the total resonance energy in contributions from the possible 4n+2 and 4n pi-electron conjugated circuits shows that only the 6 pi-electron conjugated circuits (benzene-like) contribute to the resonance energy. The results show that cyclopenta-fusion does not extend the pi system in the ground state; the five-membered rings act as peri-substituents. As a consequence, the differences in (total) resonance energy do not coincide with the differences in thermodynamic stability. Notwihstanding, the relative energies of the Kekule structures can be estimated using Randic's conjugated circuits model.
Keywords
International
Citation
Havenith, R W A, van Lenthe, J H & Jenneskens, L W 2005, 'An ab initio Valence Bond Study on Cyclopenta-Fused Naphthalenes and Fluoranthenes', Journal of Organic Chemistry, vol. 70, pp. 4484-4489.