Preparation and properties of novel liquid crystal ionomers bearing benzoxazole-based mesogenic side-chains and their membranes

Abstract

A new heterocyclic mesogenic compound, 6-[4-(5-chloro-2-benzoxazolyl)phenoxy]-hexanethiol (CBPHT), is designed and synthesized, which shows an enantiotropic SmC mesophase with the liquid crystal phase ranges of 5.67 °C and 22.99 °C on heating and cooling, respectively. The CBPHT-based side-chain liquid crystal polymers (LCP-x) are obtained via a nucleophilic substitution between CBPHT and polyepichlorohydrin, and also shows an enantiotropic SmC mesophase with narrow temperature range. Furthermore, novel side-chain liquid crystal ionomers (LCI-x) with enantiotropic SmC mesophase are prepared via quaternization of N-methylimidazole with LCP-x, where polyepichlorohydrin, CBPHT and methylimidazolium chloride act as polymer main-chain, mesogenic side-chain, and ionic group, respectively. In addition, LCI-x membranes can be fabricated via a solution casting method, and exhibit high thermal stability, good mechanical properties and high ion conductivity. For example, LCI-0.20 with a low ion exchange capacity of 0.12 mequiv. g−1 has a large elongation at break (385 %) and a high chloride ion conductivity (20.68 mS cm−1), indicating a high potential for application as polymer electrolyte membrane.