Transformation of various multicenter bondings within bicapped-square antiprismatic motifs: -rearrangement.

Reported herein are mutual rearrangements in the whole series of seven bicapped-square antiprismatic -CBH by means of high-quality computations that disprove the earlier postulated (diamond-square-diamond) scheme for these isomerizations. The experimentally existing -1,2-CBH was able to be converted to 1,6-, and 1,10-isomers by pyrolysis, and the (diamond-square-diamond) mechanism was offered as an explanation of these processes. However, these computations disprove the postulated scheme for these isomerizations that take place in the ten-vertex series. Experimentally observed thermal rearrangements, both in the parent and substituted -1,2-CBH, -1-CBH, and -BH, indirectly support these refined computations. All these processes are based on the new concept of the so-called -mechanism, being consistent with a transition state of a boat shape with an open hexagonal belt that results from the initial breakage of three bonds. Such bond breakings and the consequent bond formations bring to mind the shape of the letter . In effect, the pattern of multicenter bonding shifts from reactant through a transition state to product. The molecular rearrangements that are available experimentally favour either the axial or equatorial isomers, and this ratio depends on temperature and the type of cluster and its substitution.