University of Wollongong
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3D actuation of foam-core liquid metal droplets

journal contribution
posted on 2024-11-17, 14:00 authored by Yue Chen, Xuanhan Chen, Zhenhong Zhu, Mingyuan Sun, Shen Li, Minfeng Gan, Shi Yang Tang, Weihua Li, Shiwu Zhang, Lining Sun, Xiangpeng Li
Precise manipulation of liquid metal (LM) droplets possesses the potential to enable a wide range of applications in reconfigurable electronics, robotics, and microelectromechanical systems. Although a variety of methods have been explored to actuate LM droplets on a 2D plane, versatile 3D manipulation remains a challenge due to the difficulty in overcoming their heavy weight. Here, foam-core liquid metal (FCLM) droplets that can maintain the surface properties of LM while significantly reducing the density are developed, enabling 3D manipulation in an electrolyte. The FCLM droplet is fabricated by coating LM on the surface of a copper-grafted foam sphere. The actuation of the FCLM droplet is realized by electrically inducing Marangoni flow on the LM surface. Two motion modes of the FCLM droplet are observed and studied and the actuation performance is characterized. Multiple FCLM droplets can be readily controlled to form 3D structures, demonstrating their potential to be further developed to form collaborative robots for enabling wider applications.

Funding

Royal Society (22KJA510006)

History

Journal title

Soft Matter

Language

English

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