R. Deschenaux et al., Switchable mesomorphic materials based on the ferrocene-ferrocenium redox system: Electron-transfer-generated columnar liquid-crystalline phases, ORGANOMETAL, 18(26), 1999, pp. 5553-5559
Oxidation of the non-mesomorphic ferrocene derivative 1 with silver toluene
-4-sulfonate gave the ferrocenium derivative 2, which showed a monotropic c
olumnar phase. The latter two-dimensional phase is composed of ribbons, in
which derivative 2 is organized into bilayers, and has a centered rectangul
ar symmetry with a = 318.3 Angstrom and c = 94.9 Angstrom. The Mossbauer sp
ectra of the ferrocene derivative 1 yields hyperfine parameters that are ty
pical of these derivatives and are, as expected, virtually independent of t
emperature. In a similar fashion, the hyperfine parameters of the ferroceni
um derivative 2 are typical of these derivatives, but in this case at both
78 and 4.2 K slow paramagnetic relaxation of the magnetic moment associated
with the rather well isolated paramagnetic ferrocenium ion is observed. Th
e temperature-dependent magnetic susceptibilities of 2 are in agreement wit
h those expected for weakly interacting ferrocenium cores. No magnetic-fiel
d-induced orientation was observed upon cooling the sample from the isotrop
ic phase down to the columnar phase; Ferrocene and ferrocenium are valuable
units for the design of liquid-crystalline switches.