Optimal face-to-face coupling for fast self-folding kirigami

Maks Pecnik Bambic; Nuno A.M. Araújo; Benjamin J. Walker; Duncan R. Hewitt; Qing Xiang Pei; Ran Ni; Giorgio Volpe

doi:10.1039/d3sm01474f

Optimal face-to-face coupling for fast self-folding kirigami

Maks Pecnik Bambic, Nuno A.M. Araújo, Benjamin J. Walker, Duncan R. Hewitt, Qing Xiang Pei, Ran Ni, Giorgio Volpe^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Kirigami-inspired designs can enable self-folding three-dimensional materials from flat, two-dimensional sheets. Hierarchical designs of connected levels increase the diversity of possible target structures, yet they can lead to longer folding times in the presence of fluctuations. Here, we study the effect of rotational coupling between levels on the self-folding of two-level kirigami designs driven by thermal noise in a fluid. Naturally present due to hydrodynamic resistance, we find that this coupling parameter can significantly impact a structure's self-folding pathway, thus enabling us to assess the quality of a kirigami design and the possibility for its optimization in terms of its folding rate and yield.

Original language	English
Pages (from-to)	1114-1119
Number of pages	6
Journal	Soft Matter
Volume	20
Issue number	5
DOIs	https://doi.org/10.1039/d3sm01474f
Publication status	Published - Jan 9 2024
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2024 The Royal Society of Chemistry

ASJC Scopus Subject Areas

General Chemistry
Condensed Matter Physics

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10.1039/d3sm01474f

Cite this

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abstract = "Kirigami-inspired designs can enable self-folding three-dimensional materials from flat, two-dimensional sheets. Hierarchical designs of connected levels increase the diversity of possible target structures, yet they can lead to longer folding times in the presence of fluctuations. Here, we study the effect of rotational coupling between levels on the self-folding of two-level kirigami designs driven by thermal noise in a fluid. Naturally present due to hydrodynamic resistance, we find that this coupling parameter can significantly impact a structure's self-folding pathway, thus enabling us to assess the quality of a kirigami design and the possibility for its optimization in terms of its folding rate and yield.",

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AU - Pei, Qing Xiang

AU - Ni, Ran

AU - Volpe, Giorgio

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AB - Kirigami-inspired designs can enable self-folding three-dimensional materials from flat, two-dimensional sheets. Hierarchical designs of connected levels increase the diversity of possible target structures, yet they can lead to longer folding times in the presence of fluctuations. Here, we study the effect of rotational coupling between levels on the self-folding of two-level kirigami designs driven by thermal noise in a fluid. Naturally present due to hydrodynamic resistance, we find that this coupling parameter can significantly impact a structure's self-folding pathway, thus enabling us to assess the quality of a kirigami design and the possibility for its optimization in terms of its folding rate and yield.

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Optimal face-to-face coupling for fast self-folding kirigami

Abstract

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