Emergent Antiferroelectric Ordering and the Coupling of Liquid Crystalline and Polar Order

Abstract

Polar liquid crystals possess 3D orientational order coupled with unidirectional electric polarity, yielding fluid ferroelectrics. Such polar phases are generated by rod-like molecules with large electric dipole moments. 2,5-Disubstituted 1,3-dioxane is commonly employed as a polar motif in said systems, and herein it is shown to suffer from thermal instability as a consequence of equatorial-trans to axial-trans isomerism at elevated temperatures. Isosteric building blocks are utilized as potential replacements for the 1,3-dioxane unit, and in doing so new examples of fluid ferroelectric systems are obtained. For binary mixtures of certain composition, the emergence of a new fluid antiferroelectric phase, a finding not observed for either of the parent molecules, is observed. This study also reveals a critical tipping point for the emergence of polar order in otherwise apolar systems. These results hint at the possibility for uncovering new highly ordered polar liquid-crystalline phases and delineate distinct transition mechanisms in orientational and polar ordering.