Synthetic strategies towards C60. Molecular mechanics and MNDO study on sumanene and related structures
Abstract
Strain energies of the hydrocarbons derived from the fragments of C60 along the C5, C3 and C2 symmetry pathways indicate that the strain energy per carbon (Es) increases gradually along the C3 and C2 paths, but has a maximum at C40H10 along the C5 path. C21-Sumanene, 10, has been recognised as a leading fragment along C3 route with an inversion barrier of 24.2 kcal mol–1 and a bowl depth of 1.15 Å at MNDO level. This contrasts with C20-corannulene, 6, which is a more shallow bowl with a lower inversion barrier. The bond alternation in the central six membered ring of sumanene resembles that of C60. The higher fragments en route to C60 are deep bowls with higher barriers for inversion. An approach to sumanene via a triphenylene derivative, 26, has been probed and an increase in strain through sequential placement of methylene bridges has been estimated, using MNDO and MM2 calculations. Synthetic routes to a doubly bridged triphenylene, 28, and schemes for further elaboration of 26a and sumanene derivative, 29, towards C60 are considered.