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Ultrastable liquid crystalline blue phase from molecular synergistic self-assembly

Wei Hu, Ling Wang, Meng Wang, Tingjun Zhong, Qian Wang, Lanying Zhang, Feiwu Chen, Kexuan Li, Zongcheng Miao, Deng‐Ke Yang, Huai Yang

2021Nature Communications61 citationsDOIOpen Access PDF

Abstract

Fabricating functional materials via molecular self-assembly is a promising approach, and precisely controlling the molecular building blocks of nanostructures in the self-assembly process is an essential and challenging task. Blue phase liquid crystals are fascinating self-assembled three-dimensional nanomaterials because of their potential information displays and tuneable photonic applications. However, one of the main obstacles to their applications is their narrow temperature range of a few degrees centigrade, although many prior studies have broadened it to tens via molecular design. In this work, a series of tailored uniaxial rodlike mesogens disfavouring the formation of blue phases are introduced into a blue phase system comprising biaxial dimeric mesogens, a blue phase is observed continuously over a temperature range of 280 °C, and the range remains over 132.0 °C after excluding the frozen glassy state. The findings show that the molecular synergistic self-assembly behavior of biaxial and uniaxial mesogens may play a crucial role in achieving the ultrastable three-dimensional nanostructure of blue phases.

Topics & Concepts

Materials scienceSelf-assemblyNanostructurePhase (matter)Liquid crystalNanomaterialsNanotechnologyLiquid crystallineMolecular engineeringRange (aeronautics)Chemical physicsOptoelectronicsChemistryOrganic chemistryComposite materialLiquid Crystal Research AdvancementsAdvanced Materials and MechanicsPlant Reproductive Biology
Ultrastable liquid crystalline blue phase from molecular synergistic self-assembly | Litcius