Self-Shaping Soft Electronics Based on Patterned Hydrogel with Stencil-Printed Liquid Metal |
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| Authors: | Xing Peng Hao Chen Yu Li Chuan Wei Zhang Miao Du Zhimin Ying Qiang Zheng Zi Liang Wu |
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| Affiliation: | 1. Ministry of Education Key Laboratory of Macromolecular Synthesis and Functionalization, Department of Polymer Science and Engineering, Zhejiang University, Hangzhou, 310027 China;2. Second Affiliated Hospital, School of Medicine, Zhejiang University, Hangzhou, 310009 China |
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| Abstract: | Hydrogel-based soft electronics (HSE) is promising as implantable devices due to the similarity of hydrogel substrates to biologic tissues. Most existing HSE devices are based on conducting hydrogels that usually have weak mechanical properties, low conductivity, and poor patternability. Reported here is an HSE with good mechanical performance, high sensitivity, and versatile functions by stencil printing of liquid metal on a tough hydrogel, facilitating integration of multiple sensing units. Self-shaping ability is imparted to the HSE by creating gradient structure in the hydrogel substrate. The resultant HSE actively deforms into 3D configurations with zero or nonzero Gaussian curvature to fix on objects or organs with sophisticated geometries and maintains the sensing functions. The versatilities and potential applications of this HSE are demonstrated by monitoring motions of a rice field eel and beatings of a rabbit heart. Such HSE based on morphing substrate should pave the way for implantable electronics with better fixation and interfacial contact with the organs. The concept of morphing hydrogel devices can be extended to other soft electronics with responsive polymer films or elastomers as the substrates. |
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| Keywords: | liquid metals morphing structures soft electronics stencil patterning tough hydrogels |
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