Structure–property relationships of ‘diluted’ ferroelectric polysiloxanes

Abstract

A series of new ferroelectric copolysiloxanes with systematically varied comonomer content (‘dilution’) has been synthesized. Good planar alignment could be achieved for all copolysiloxanes and they were studied with respect to their mesomorphic and ferroelectric properties. Broad enantiotropic S*_C phases and spontaneous polarizations up to 286 nC cm⁻² are found. X-ray diffraction experiments show a linear increase of the smectic layer spacing by ‘dilution’. This points to a microphase separated structure of mesogenic groups and siloxane chains. It is found that the fixation of a mesogen to homopolysiloxane leads to an increase of P _s, whereas the ‘dilution’ of the mesogens with dimethylsiloxane units decreases P _s again. Based on the microphase separated model, it can be shown that the decrease of P _s is not only due to the decrease of the vol % of mesogenic groups. The coupling between different mesogens mediated by the polymer chain, has additionally to be taken into consideration. A remarkable drop in the response times τ with decreasing mesogen content is confirmed and switching times less than 1 ms were measured.