Microstructure-Stabilized Blue Phase Liquid Crystals
Jia-De Lin, Ying-Lung Daniel Ho, Lifeng Chen, Martin Lopez-Garcia,, Shun-An Jiang, Mike P.C. Taverne, Chia-Rong Lee, and John G. Rarity

TL;DR
This paper demonstrates that 2D honeycomb microwells significantly enhance the stability and optical properties of blue phase liquid crystals by omni-directional molecular anchoring, offering a new approach for stable BP applications.
Contribution
It introduces a novel method using polymeric microwells to stabilize blue phase liquid crystals through omni-directional anchoring, extending temperature stability and optical performance.
Findings
Extended stable temperature range of BPLCs
Increased reflectivity and thermal stability of the reflective peak
Omni-directional stabilization mechanism identified
Abstract
We show that micron-scale two-dimensional (2D) honeycomb microwells can significantly improve the stability of blue phase liquid crystals (BPLCs). Polymeric microwells made by direct laser writing improve various features of the blue phase (BP) including a dramatic extension of stable temperature range and a large increase both in reflectivity and thermal stability of the reflective peak wavelength. These results are mainly attributed to the omni-directional anchoring of the isotropically oriented BP molecules at the polymer walls of the hexagonal microwells and at the top and bottom substrates. This leads to an omni-directional stabilization of the entire BPLC system. This study not only provides a novel insight into the mechanism for the BP formation in the 2D microwell but also points to an improved route to stabilize BP using 2D microwell arrays.
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