Unexpectedly Large Structural Variations in Benzyl-Substituted Sila[1]ferrocenophanes.

A set of four planar-chiral sila[1]ferrocenophanes equipped with a benzyl group in the α-position, either on one or both Cp rings, and substituted on the bridging silicon atom, either by methyl or phenyl groups, were prepared. While NMR, UV/Vis, and DSC measurements did not show anything uncommon, single crystal X-ray analyses revealed unexpectedly large variations of the dihedral angles between both Cp rings (α tilt angle). While DFT calculations predicted α between 19.6 and 20.8°, measured values were found between 16.6(2) and 21.45(14)°. However, experimentally determined conformers differ significantly from those calculated for the gas phase. For the sila[1]ferrocenophane with the largest mismatch between the experimental and predicted α angle, it was shown that the orientation of benzyl groups have a significant influence on the ring-tilted structure. Packing of molecules in the crystal lattice forces benzyl groups into unusual orientations, resulting in a significantly reduced α angle through steric repulsions.