Microwave-assisted synthesis and high-performance anhydrous electrorheological characteristic of monodisperse poly(ionic liquid) particles with different size of cation/anion parts

Monodisperse poly(ionic liquid) particles with a styrenic backbone and different size of quaternary ammonium/fluorinated imide ion parts were synthesized by microwave-assisted dispersion polymerization for use as high-performance anhydrous polyelectrolyte-based smart electrorheological materials. The morphology and structure of particles were characterized by SEM, NMR, FT-IR, and TGA. The electrorheological effect of poly(ionic liquid) particles in silicone oil was investigated by rheometer under electric fields. It showed that, different from classic polyelectrolytes, the poly(ionic liquid) particles possess strong electrorheological effect in dry state and the electrorheological effect depends on the size of cation/anion parts. The poly(ionic liquid) particles having smaller cation/anion parts possess stronger electrorheological effect. Dielectric analysis indicated that the local ion motion-induced interfacial polarization is responsible for the strong electrorheological effect of poly(ionic liquid) particles and the dependence of electrorheological effect on the size of cation/anion is related to the change of interfacial polarizability with the size of cation/anion parts.