Shape Morphing by Topological Patterns and Profiles in Laser-Cut Liquid Crystal Elastomer Kirigami

Chen, Juan; Jiang, Jinghua; Weber, Jada; Gimenez-Pinto, Vianney; Peng, Chenhui

doi:10.1021/acsami.2c20295

Cited by 11 publications

(2 citation statements)

References 69 publications

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“…The LCEs can exhibit complex shape transformations by carefully programming the geometries and orientation patterns. − Peng et al proposed an approach for realizing 4D printing of freestanding LCE by the integration of laser-assisted DIW and DLP, which provide design freedom and fabrication capability for applications. Wang et al prepared a photothermal composite ink AuNR/LCE and demonstrated that 3D-printed AuNR/LCE flower whose petals can be “bloomed” globally or individually.…”

Section: Introductionmentioning

confidence: 99%

Shape Morphing of 3D Printed Liquid Crystal Elastomer Structures with Precuts

Wang

Wei

et al. 2023

ACS Appl. Polym. Mater.

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Liquid crystal elastomer (LCE) is a typical thermally responsive soft material, which is an ideal candidate for fabricating programmable shape changing structures. The anisotropic shape changes of LCEs caused by the mesogen reorientation are inherently different from those of other stimulus-responsive soft materials, such as hydrogels and dielectric elastomers. In this paper, we first investigate the bending behaviors of bilayer LCEs with monodomain LCEs as the active layer and polydomain LCEs as the passive layer. It is shown that different shape folding behaviors can be obtained by changing the aspect ratio. We further propose a strategy to achieve complex activated LCE deformations through introducing precuts into the printed LCE structures, which can change the degrees of freedom of the structures. The shape morphing behaviors of our design are beyond the ability of the bilayer based on other stimulus-responsive soft materials. Our method can provide far-reaching possibilities for soft devices and 3D actuators with various functionalities.

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Section: Introductionmentioning

confidence: 99%

Shape Morphing of 3D Printed Liquid Crystal Elastomer Structures with Precuts

Wang

Wei

et al. 2023

ACS Appl. Polym. Mater.

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“…Hillel et al 43 used an approximate numerical method to calculate local LCE deformation curvature, achieved programmable arbitrary LCE three‐dimensional shape deformation, and created a 3D “Robot face”. Chen et al 44 proposed LCE kirigami with topological patterns and implemented different functionalities, such as a bioinspired fluttering butterfly, a flower bud, dual‐rotation light mills, and dual‐mode locomotion. Based on the principles of muscles, Mengqi et al 45 enabled programmable LCE muscles to achieve diverse motions through the cooperative actions of otherwise simple contraction/expansion of individual muscle bundles.…”

Section: Introductionmentioning

confidence: 99%

Finite element modeling of programmable liquid crystal elastomer plates and its application in text display

Huang

Wang

2023

J of Applied Polymer Sci

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Liquid crystal elastomers (LCEs) have wide and potential applications in artificial muscles, soft robots, biomedical devices, and so on. On the application of LCE plate in text display, different from others' work where specially shaped ultraviolet (UV) lighting is used, in this paper, the programmable deformation of LCE plates with arbitrary liquid crystal orientation subjected to uniform light illumination is investigated. A photomechanical coupling finite element method (FEM) is developed, in which the impact of the shear strains induced by light is taken into account. Inspired by the FEM, the LCE plate is divided into finite small regions. By altering the liquid crystal orientation of each region in the LCE plate, the ability to generate 24 letters and 10 numbers through light‐induced deformations is demonstrated. Matrixes of the liquid crystal orientation corresponding to each letter and number are provided. This work indicates that it is possible for blind people to read text information by touching the deformed LCE plate.

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Auxetic Liquid Crystal Vitrimers with Adjustable Poisson's Ratios Enabled by Topological Rearrangements of Polymer Network

Zheng,

Ma,

et al. 2024

Adv Funct Materials

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Metamaterials feature extraordinary physical properties that break the cognitive limitations of human beings on traditional materials. Auxetic materials and liquid crystal elastomers (LCEs) are representative of typical mechanical and thermal metamaterials. Their combination may introduce some unconventional and counterintuitive performances. Nevertheless, studies on LCEs with negative Poisson's ratio (v) are still rare. Herein, a liquid crystal vitrimer (Poly‐LCE) is developed that is a polydomain main‐chain LCE containing dynamic ester bonds. Its orientation process to monodomain (Mono‐LCE) is greatly simplified by transesterification reaction‐induced topological network rearrangement under mechanical alignment. By optimizing geometric parameters of re‐entrant (R) structures and orientation of liquid crystal units, all samples of R‐Poly‐LCE, R‐Mono‐LCE (//), and R‐Mono‐LCE (⊥) show negative Poisson's ratio (NPR) below 2% elongation (v = −0.22–0 for R‐Poly‐LCE, v = −0.12–0 for R‐Mono‐LCE (//) and v = −0.16–0 for R‐Mono‐LCE (⊥)). Interestingly, R‐Poly‐LCE presents v > 0 within 2%–10% axial elongation, while R‐Mono‐LCE (//) and R‐Mono‐LCE (⊥) exhibit v ≈ 0 under the same elongation. Materials with negative and zero Poisson's ratios are interesting in niche applications. This work develops a simple method to prepare these materials by liquid crystal vitrimers.

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Shape Morphing by Topological Patterns and Profiles in Laser-Cut Liquid Crystal Elastomer Kirigami

Cited by 11 publications

References 69 publications

Shape Morphing of 3D Printed Liquid Crystal Elastomer Structures with Precuts

Shape Morphing of 3D Printed Liquid Crystal Elastomer Structures with Precuts

Finite element modeling of programmable liquid crystal elastomer plates and its application in text display

Auxetic Liquid Crystal Vitrimers with Adjustable Poisson's Ratios Enabled by Topological Rearrangements of Polymer Network

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