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- Title
Ultrastable liquid crystalline blue phase from molecular synergistic self-assembly.
- Authors
Hu, Wei; Wang, Ling; Wang, Meng; Zhong, Tingjun; Wang, Qian; Zhang, Lanying; Chen, Feiwu; Li, Kexuan; Miao, Zongcheng; Yang, Dengke; Yang, Huai
- 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. Blue phases are spatially ordered yet fragile liquid crystalline structures, bearing applications in optoelectronics and photonics. Hu et al. show that self-assembly within a mixture of different mesogens may significantly broaden the temperature range over which they are stable.
- Subjects
LIQUID crystal states; MOLECULAR self-assembly; CRYSTAL structure; MESOGENS; NEMATIC liquid crystals; CHOLESTERIC liquid crystals
- Publication
Nature Communications, 2021, Vol 12, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-021-21564-y