Reentrant 2D Nanostructured Liquid Crystals by Competition between Molecular Packing and Conformation: Potential Design for Multistep Switching of Ionic Conductivity

January 31, 2023

Title

Reentrant 2D Nanostructured Liquid Crystals by Competition between Molecular Packing and Conformation: Potential Design for Multistep Switching of Ionic Conductivity

Author

Kazuma Hamaguchi, Dr. Huanjun Lu, Shota Okamura, Dr. Satoshi Kajiyama, Dr. Junya Uchida, Shunsuke Sato, Dr. Go Watanabe, Dr. Yoshiki Ishii, Prof. Dr. Hitoshi Washizu, Prof. Dr. Goran Ungar, Prof. Dr. Takashi Kato

Year

2023

Journal

ChemPhysChem

Abstract

Reentrant phenomena in soft matter and biosystems have attracted considerable attention because their properties are closely related to high functionality. Here, we report a combined experimental and computational study on the self-assembly and reentrant behavior of a single-component thermotropic smectic liquid crystal toward the realization of dynamically functional materials. We have designed and synthesized a mesogenic molecule consisting of an alicyclic trans,trans-bicyclohexyl mesogen and a polar cyclic carbonate group connected by a flexible tetra(oxyethylene) spacer. The molecule exhibits an unprecedented sequence of layered smectic phases, in the order: smectic A-smectic B-reentrant smectic A. Electron density profiles and large-scale molecular dynamics simulations indicate that competition between the stacking of bicyclohexyl mesogens and the conformational flexibility of tetra(oxyethylene) chains induces this unusual reentrant behavior. Ion-conductive reentrant liquid-crystalline materials have been developed, which undergo the multistep conductivity changes in response to temperature. The reentrant liquid crystals have potential as new mesogenic materials exhibiting switching functions.

Instrument

FT/IR-6100 plus, IRT-5000

Keywords

buosystems, liquid crystals. Computational study