Crystal Structures and Phase Sequences of Metallocenium Salts with Fluorinated Anions: Effects of Molecular Size and Symmetry on Phase Transitions to Ionic Plastic Crystals

Sandwich compounds often exhibit various phase transitions, including those to plastic phases. To elucidate the general features of the phase transitions in metallocenium salts, the thermal properties and crystal structures of [Fe(C 5 Me 5 ) 2 ]X ([ 1 ]X), [Co(C 5 Me 5 ) 2 ]X ([ 2 ]X), and [Fe(C 5 Me 4 H) 2 ]X ([ 3 ]X) have been investigated, where the counter anions (X) are Tf 2 N (=(CF 3 SO 2 ) 2 N − ), OTf (=CF 3 SO 3 − ), PF 6 , and BF 4 . The Tf 2 N salts commonly undergo phase transitions from an ordered phase at low temperatures to an anion‐disordered phase, followed by a plastic phase and finally melt at high temperatures. All these salts exhibit a phase transition to a plastic phase, and the transition temperature generally decreases with decreasing cation size and increasing anion size. The crystal structures of these salts comprise an alternating arrangement of cations and anions. About half of these salts exhibit phase transitions at low temperatures, which are mostly correlated with the order–disorder of the anion.