Journal of Polymer Science Part B: Polymer Physics, Vol.35, No.3, 479-488, 1997
Synthesis, Characterization, and Thermal and Dielectric-Properties of 3 Different Methacrylate Polymers with Zwitterionic Pendant Groups
The synthesis, characterization, thermal, and dielectric properties of three different zwitterionic methacrylates of the sulfobetaine type are presented. Diethylamine-ethyl-, 2-(diethylaminoethoxy)-ethyl-, and 2-(2-diethylaminoethoxy)ethoxy)-ethyl-methacrylates were made to react with butanosultone to prepare monomers with variable flexibility. The flexibility of the lateral chain of the polymethacrylates decreased the glass transition temperature (T-g down to 300 K) of the polymers. A linear relationship between T-g and the number of carbon atoms was shown for these materials. X-ray diffraction and DSC experiments showed the formation of new ordered phases in these polymers, which inhibited their dipole conductivity. On heating, these phases were destroyed and values of conductivity of 10(-7)-10(-3) S cm(-1) were obtained in the studied range of temperature. Variation of conductivity with temperature was established according to the Arrhenius equation. Dielectric properties exhibited a small deviation of the Debye type behavior, and beta parameters of the Cole-Cole equations were calculated for the synthesized polymers.