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Light-controlled versatile manipulation of liquid metal droplets: A gateway to future liquid robots

Light-controlled versatile manipulation of liquid metal droplets: A gateway to future liquid robots
Light-controlled versatile manipulation of liquid metal droplets: A gateway to future liquid robots

The controlled actuation of liquid metal (LM) droplets has recently shown great potential in developing smart actuating systems for applications in robotics. However, there is a lack of a simple approach for the precise manipulation of multiple LM droplets in a 2D plane, which hinders the development of complex control over droplets for realizing useful robotic applications. To overcome this challenge, here, a versatile and powerful light-induced manipulation of LM droplets is presented. The key principle is to selectively activate phototransistors in an electrolyte using infrared laser beams to electrically control LM droplets via Marangoni forces. This approach shows the ability of inducing concurrent motion, splitting, and merging of multiple LM droplets simply using light without complex and bulky systems. Parameters affecting the manipulation of LM droplets are thoroughly investigated. Moreover, a vehicle carrier driven by wheels composed of multiple LM droplets for making a light-controlled relay is demonstrated. We believe such a light-induced control method for manipulating LM droplets has the potential for advancing the development of future field-programmable robotics and droplet-based soft collaborative robots.

2051-6347
3063-3071
Ren, Hongtai
608a31ca-90db-4a32-8c19-9614ef821be2
Jin, Hu
71a612f4-09c0-40a4-80d4-6616f1fc8610
Shu, Jian
10c82f94-8f99-4785-b33f-fa20484344fd
Xie, Jie
95f5ab65-2bf0-4a5d-b0e5-1bfa27e1cb34
Wang, Erlong
32321047-3d3d-47d7-b2db-94fa55fcb85a
Ge, Du An
29790261-acbb-43c8-a225-dc1ed03e6f9d
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Li, Xiangpeng
73f32905-ad7c-4ce3-93a4-78237b98f4fb
Li, Weihua
e2555036-0e48-425a-afeb-db6ffba5238e
Zhang, Shiwu
da008f91-71fa-42fb-879e-68b91429e1d6
Ren, Hongtai
608a31ca-90db-4a32-8c19-9614ef821be2
Jin, Hu
71a612f4-09c0-40a4-80d4-6616f1fc8610
Shu, Jian
10c82f94-8f99-4785-b33f-fa20484344fd
Xie, Jie
95f5ab65-2bf0-4a5d-b0e5-1bfa27e1cb34
Wang, Erlong
32321047-3d3d-47d7-b2db-94fa55fcb85a
Ge, Du An
29790261-acbb-43c8-a225-dc1ed03e6f9d
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Li, Xiangpeng
73f32905-ad7c-4ce3-93a4-78237b98f4fb
Li, Weihua
e2555036-0e48-425a-afeb-db6ffba5238e
Zhang, Shiwu
da008f91-71fa-42fb-879e-68b91429e1d6

Ren, Hongtai, Jin, Hu, Shu, Jian, Xie, Jie, Wang, Erlong, Ge, Du An, Tang, Shi Yang, Li, Xiangpeng, Li, Weihua and Zhang, Shiwu (2021) Light-controlled versatile manipulation of liquid metal droplets: A gateway to future liquid robots. Materials Horizons, 8 (11), 3063-3071. (doi:10.1039/d1mh00647a).

Record type: Article

Abstract

The controlled actuation of liquid metal (LM) droplets has recently shown great potential in developing smart actuating systems for applications in robotics. However, there is a lack of a simple approach for the precise manipulation of multiple LM droplets in a 2D plane, which hinders the development of complex control over droplets for realizing useful robotic applications. To overcome this challenge, here, a versatile and powerful light-induced manipulation of LM droplets is presented. The key principle is to selectively activate phototransistors in an electrolyte using infrared laser beams to electrically control LM droplets via Marangoni forces. This approach shows the ability of inducing concurrent motion, splitting, and merging of multiple LM droplets simply using light without complex and bulky systems. Parameters affecting the manipulation of LM droplets are thoroughly investigated. Moreover, a vehicle carrier driven by wheels composed of multiple LM droplets for making a light-controlled relay is demonstrated. We believe such a light-induced control method for manipulating LM droplets has the potential for advancing the development of future field-programmable robotics and droplet-based soft collaborative robots.

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More information

Published date: November 2021
Additional Information: Funding Information: This research has been partially supported by the following funding: National Natural Science Foundation of China grant 51828503 (S. Z.), National Natural Science Foundation of China grant U1713206 (S. Z.), National Natural Science Foundation of China grant 61503270 (S. Z.), and Fundamental Research Funds for the Central Universities WK5290000001 (H. R.). Publisher Copyright: © 2021 The Royal Society of Chemistry.

Identifiers

Local EPrints ID: 481758
URI: http://eprints.soton.ac.uk/id/eprint/481758
ISSN: 2051-6347
PURE UUID: 9b720f7a-8d50-4040-b4bb-51b98427db90
ORCID for Shi Yang Tang: ORCID iD orcid.org/0000-0002-3079-8880

Catalogue record

Date deposited: 07 Sep 2023 16:35
Last modified: 06 Jun 2024 02:18

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Contributors

Author: Hongtai Ren
Author: Hu Jin
Author: Jian Shu
Author: Jie Xie
Author: Erlong Wang
Author: Du An Ge
Author: Shi Yang Tang ORCID iD
Author: Xiangpeng Li
Author: Weihua Li
Author: Shiwu Zhang

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