Advanced Science (Mar 2024)

Bioinspired Confined Assembly of Cellulosic Cholesteric Liquid Crystal Bubbles

  • Qiao Wang,
  • Zhuohao Zhang,
  • Chong Wang,
  • Xinyuan Yang,
  • Zhonglin Fang,
  • Luoran Shang

DOI
https://doi.org/10.1002/advs.202308442
Journal volume & issue
Vol. 11, no. 11
pp. n/a – n/a

Abstract

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Abstract Construction of biomimetic models for structural color evolution not only gives new photonic phenomena but also provide cues for biological morphogenesis. Here, a novel confined self‐assembly method is proposed for the generation of hydroxypropyl cellulose (HPC)‐based cholesteric liquid crystals (CLCs) microbubbles. The assembly process relies on the combination of droplet microfluidics, solvent extraction, and a volume confined environment. The as‐prepared HPC structural color microbubbles have a transparent shell, an orderly arranged cholesteric liquid crystal (CLC) middle layer, and an innermost bubble core. The size of the microbubble, shell thickness, and the color of the CLC layer can be adjusted by altering the microfluidic parameters. Intriguingly, benefited from the compartmentalization effect provided by droplet microfluidics, microbubbles with multiple cores of different color combinations are generated under precise control. The self‐assembled CLCs microbubbles have bright structural color, suspending ability, and good temperature‐sensitive characteristics, making them ideal underwater sensors. The present confined assembly approach will shed light on creating novel photonic structures and the HPC microbubble will find widespread applications in multifunctional sensing, optical display, and other related fields are believed.

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