Many metals form metallocene complexes where a metal ion is sandwiched between two aromatic rings. The ion is considered to be equally coordinated to all carbons in the ring.
For example cyclopentadience (C₅H₆) reacts with sodium to form the ionic compound (C₅H₅) ^- Na⁺. The ring structure of the ligand is aromatic and the structure drawn as delocalised. This ionic salt is then used to produce a host of coordination complexes e.g with Fe, Mg, Be etc which consist of a divalent cation and two cycolpentadienyl rings. Most of these ions form a sandwich complex where the metal ion lies equidistantly between the two rings. However, in the gas phase, beryllium coordinates to one ring or the other but not both. By considering the properties of beryllium, suggest why this might be.

Question

Quizplus · Accepted Answer

Beryllium is a very small cation and when sandwiched between two negatively charged aromatic rings, the repulsive forces between the rings increase dramatically. This makes it unfavorable for beryllium to coordinate with both rings simultaneously, hence it coordinates with one ring only.

Many Metals Form Metallocene Complexes Where a Metal Ion Is