Chem & Bio Engineering (Jun 2024)

4D Printing of Shape-Morphing Liquid Crystal Elastomers

  • Tongzhi Zang,
  • Shuang Fu,
  • Junpeng Cheng,
  • Chun Zhang,
  • Xili Lu,
  • Jianshe Hu,
  • Hesheng Xia,
  • Yue Zhao

DOI
https://doi.org/10.1021/cbe.4c00027
Journal volume & issue
Vol. 1, no. 6
pp. 488 – 515

Abstract

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In nature, biological systems can sense environmental changes and alter their performance parameters in real time to adapt to environmental changes. Inspired by these, scientists have developed a range of novel shape-morphing materials. Shape-morphing materials are a kind of “intelligent” materials that exhibit responses to external stimuli in a predetermined way and then display a preset function. Liquid crystal elastomer (LCE) is a typical representative example of shape-morphing materials. The emergence of 4D printing technology can effectively simplify the preparation process of shape-morphing LCEs, by changing the printing material compositions and printing conditions, enabling precise control and macroscopic design of the shape-morphing modes. At the same time, the layer-by-layer stacking method can also endow the shape-morphing LCEs with complex, hierarchical orientation structures, which gives researchers a great degree of design freedom. 4D printing has greatly expanded the application scope of shape-morphing LCEs as soft intelligent materials. This review systematically reports the recent progress of 3D/4D printing of shape-morphing LCEs, discusses various 4D printing technologies, synthesis methods and actuation modes of 3D/4D printed LCEs, and summarizes the opportunities and challenges of 3D/4D printing technologies in preparing shape-morphing LCEs.