Direct ink writing of programmable functional silicone‐based composites for 4D printing applications

Zhiyang Lyu; J. Justin Koh; Gwendolyn J. H. Lim; Danwei Zhang; Ting Xiong; Lei Zhang; Siqi Liu; Junfei Duan; Jun Ding; John Wang; Jinlan Wang; Yunfei Chen; Chaobin He

doi:10.1002/idm2.12027

Interdisciplinary Materials (Oct 2022)

Direct ink writing of programmable functional silicone‐based composites for 4D printing applications

Zhiyang Lyu,
J. Justin Koh,
Gwendolyn J. H. Lim,
Danwei Zhang,
Ting Xiong,
Lei Zhang,
Siqi Liu,
Junfei Duan,
Jun Ding,
John Wang,
Jinlan Wang,
Yunfei Chen,
Chaobin He

Affiliations

Zhiyang Lyu: Jiangsu Key Laboratory for Design and Manufacture of Micro‐Nano Biomedical Instruments, School of Mechanical Engineering Southeast University Nanjing China
J. Justin Koh: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Gwendolyn J. H. Lim: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Danwei Zhang: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Ting Xiong: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Lei Zhang: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Siqi Liu: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Junfei Duan: School of Materials Science and Engineering Changsha University of Science and Technology Changsha China
Jun Ding: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
John Wang: Department of Materials Science and Engineering National University of Singapore Singapore Singapore
Jinlan Wang: School of Physics Southeast University Nanjing China
Yunfei Chen: Jiangsu Key Laboratory for Design and Manufacture of Micro‐Nano Biomedical Instruments, School of Mechanical Engineering Southeast University Nanjing China
Chaobin He: Department of Materials Science and Engineering National University of Singapore Singapore Singapore

DOI: https://doi.org/10.1002/idm2.12027
Journal volume & issue: Vol. 1, no. 4
pp. 507 – 516

Abstract

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Abstract Polydimethylsiloxane (PDMS) has been widely used in flexible electronics, soft robotics, and bioelectronics. However, the fabrication of PDMS‐based devices has mostly relied on conventional approaches, such as casting and molding, thereby limiting their potential. Here we fabricate PDMS‐based composites with programmable microstructures by direct ink writing and realize their practical functionalities of four‐dimensional (4D) printing. The mechanical, thermomechanical and magnetic properties of the three‐dimensional‐printed composites can be well tailored by using carbon, metal, or ceramic functional fillers. By taking advantage of the printable, flexible, and magnetic PDMS composites, we demonstrate new practical functionalities of 4D printing by designing programmable architectures, including magnetic‐field‐driven battery cases and patchworks, as well as arbitrary morphing ceramic structures. In particular, 4D‐printed batteries are constructed by PDMS‐based battery cases for the first time, which can be actuated via external magnetic field. This study broadens the paradigm of 4D printing for prospective applications, such as implant batteries, biomimetic engineering, and customized biomedical devices.

Published in Interdisciplinary Materials

ISSN: 2767-4401 (Print); 2767-441X (Online)
Publisher: Wiley
Country of publisher: Australia
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://onlinelibrary.wiley.com/journal/2767441x

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