Creation of Liquid Metal 3D Microstructures Using Dielectrophoresis
Creation of Liquid Metal 3D Microstructures Using Dielectrophoresis
Patterning customized arrays of microscale Galinstan or EGaIn liquid metals enables the creation of a variety of microfabricated systems. Current techniques for creating microsized 3D structures of liquid metals are limited by the large dimension or low aspect ratio of such structures, and time-consuming processes. Here, a novel technique for creating 3D microstructures of Galinstan using dielectrophoresis is introduced. The presented technique enables the rapid creation of Galinstan microstructures with various dimensions and aspect ratios. Two series of proof-of-concept experiments are conducted to demonstrate the capabilities of this technique. First, the 3D Galinstan microstructures are utilized as 3D microelectrodes to enhance the trapping of tungsten trioxide (WO3) nanoparticles flowing through a microfluidic channel. Second, the patterned Galinstan microstructures are utilized as microfins to improve the dissipation of heat within a microfluidic channel that is located onto a hot spot. The presented technique can be readily used for creating customized arrays of 3D Galinstan microstructures for a wide range of applications. This work introduces a novel technique for creating 3D microstructures of Galinstan using dielectrophoresis. It enables the rapid formation of multiple microstructures with controllable diameters and aspect ratios. Proof-of-concept experiments are conducted by utilizing the patterned microstructures as 3D microelectrodes for enhancing the trapping of suspended nanoparticles, and as microfins to improve the convective heat transfer within a microfluidic channel.
4445-4452
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Zhu, Jiuyang
cf0c4370-07ac-46b9-a051-278e6895169f
Sivan, Vijay
53434367-05e4-4c6b-8d68-0d7982d71746
Gol, Berrak
186e91ea-b33b-49ed-8911-fe5a0b9c9253
Soffe, Rebecca
c1670df9-4ac4-4abc-8c48-3f6048a4e9fb
Zhang, Wei
580a3151-098d-4fac-b791-931fa89fa327
Mitchell, Arnan
33a18604-17e3-421e-b895-0f420d332cd4
Khoshmanesh, Khashayar
72608a1e-0e41-4360-8065-98d872493aed
1 July 2015
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Zhu, Jiuyang
cf0c4370-07ac-46b9-a051-278e6895169f
Sivan, Vijay
53434367-05e4-4c6b-8d68-0d7982d71746
Gol, Berrak
186e91ea-b33b-49ed-8911-fe5a0b9c9253
Soffe, Rebecca
c1670df9-4ac4-4abc-8c48-3f6048a4e9fb
Zhang, Wei
580a3151-098d-4fac-b791-931fa89fa327
Mitchell, Arnan
33a18604-17e3-421e-b895-0f420d332cd4
Khoshmanesh, Khashayar
72608a1e-0e41-4360-8065-98d872493aed
Tang, Shi Yang, Zhu, Jiuyang, Sivan, Vijay, Gol, Berrak, Soffe, Rebecca, Zhang, Wei, Mitchell, Arnan and Khoshmanesh, Khashayar
(2015)
Creation of Liquid Metal 3D Microstructures Using Dielectrophoresis.
Advanced Functional Materials, 25 (28), .
(doi:10.1002/adfm.201501296).
Abstract
Patterning customized arrays of microscale Galinstan or EGaIn liquid metals enables the creation of a variety of microfabricated systems. Current techniques for creating microsized 3D structures of liquid metals are limited by the large dimension or low aspect ratio of such structures, and time-consuming processes. Here, a novel technique for creating 3D microstructures of Galinstan using dielectrophoresis is introduced. The presented technique enables the rapid creation of Galinstan microstructures with various dimensions and aspect ratios. Two series of proof-of-concept experiments are conducted to demonstrate the capabilities of this technique. First, the 3D Galinstan microstructures are utilized as 3D microelectrodes to enhance the trapping of tungsten trioxide (WO3) nanoparticles flowing through a microfluidic channel. Second, the patterned Galinstan microstructures are utilized as microfins to improve the dissipation of heat within a microfluidic channel that is located onto a hot spot. The presented technique can be readily used for creating customized arrays of 3D Galinstan microstructures for a wide range of applications. This work introduces a novel technique for creating 3D microstructures of Galinstan using dielectrophoresis. It enables the rapid formation of multiple microstructures with controllable diameters and aspect ratios. Proof-of-concept experiments are conducted by utilizing the patterned microstructures as 3D microelectrodes for enhancing the trapping of suspended nanoparticles, and as microfins to improve the convective heat transfer within a microfluidic channel.
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Published date: 1 July 2015
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© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
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Local EPrints ID: 481670
URI: http://eprints.soton.ac.uk/id/eprint/481670
ISSN: 1616-301X
PURE UUID: 51847567-b954-4b21-9c7b-a41d99301639
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Date deposited: 05 Sep 2023 16:57
Last modified: 06 Jun 2024 02:18
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Author:
Shi Yang Tang
Author:
Jiuyang Zhu
Author:
Vijay Sivan
Author:
Berrak Gol
Author:
Rebecca Soffe
Author:
Wei Zhang
Author:
Arnan Mitchell
Author:
Khashayar Khoshmanesh
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