Impact of minor alloy components on the electrocapillarity and electrochemistry of liquid metal fractals
Impact of minor alloy components on the electrocapillarity and electrochemistry of liquid metal fractals
Exploring and controlling surface tension-driven phenomena in liquid metals may lead to unprecedented possibilities for next-generation microfluidics, electronics, catalysis, and materials synthesis. In pursuit of these goals, the impact of minor constituents within liquid alloys is largely overlooked. Herein, it is showed that the presence of a fraction of solute metals such as tin, bismuth, and zinc in liquid gallium can significantly influence their electrocapillarity and electrochemistry. The instability-driven fractal formation of liquid alloy droplets is investigated with different solutes and reveals the formation of distinctive non-branched droplets, unstable fractals, and stable fractal modes under controlled voltage and alkaline solution conditions. In their individually unique fractal morphology diagrams, different liquid alloys demonstrate significantly shifted voltage thresholds in transition between the three fractal modes, depending on the choice of the solute metal. Surface tension measurements, cycle voltammetry and surface compositional characterizations provide strong evidence that the minor alloy components drastically alter the surface tension, surface electrochemical oxidation, and oxide dissolution processes that govern the droplet deformation and instability dynamics. The findings that minor components are able to regulate liquid alloys’ surface tensions, surface element distributions and electrochemical activities offer great promises for harnessing the tunability and functionality of liquid metals.
electrocapillary, electrochemical oxidation, fractal modes, liquid metals, surface tension
Yu, Ruohan
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Han, Jialuo
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Chi, Yuan
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Zheng, Jiewei
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Fuchs, Richard
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Ghasemian, Mohammad B.
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Rahim, Md Arifur
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Tang, Shi Yang
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Mao, Guangzhao
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Kalantar-Zadeh, Kourosh
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Tang, Jianbo
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19 May 2023
Yu, Ruohan
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Han, Jialuo
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Chi, Yuan
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Zheng, Jiewei
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Fuchs, Richard
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Ghasemian, Mohammad B.
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Rahim, Md Arifur
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Tang, Shi Yang
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Mao, Guangzhao
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Kalantar-Zadeh, Kourosh
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Tang, Jianbo
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Yu, Ruohan, Han, Jialuo, Chi, Yuan, Zheng, Jiewei, Fuchs, Richard, Ghasemian, Mohammad B., Rahim, Md Arifur, Tang, Shi Yang, Mao, Guangzhao, Kalantar-Zadeh, Kourosh and Tang, Jianbo
(2023)
Impact of minor alloy components on the electrocapillarity and electrochemistry of liquid metal fractals.
Advanced Functional Materials.
(doi:10.1002/adfm.202301348).
Abstract
Exploring and controlling surface tension-driven phenomena in liquid metals may lead to unprecedented possibilities for next-generation microfluidics, electronics, catalysis, and materials synthesis. In pursuit of these goals, the impact of minor constituents within liquid alloys is largely overlooked. Herein, it is showed that the presence of a fraction of solute metals such as tin, bismuth, and zinc in liquid gallium can significantly influence their electrocapillarity and electrochemistry. The instability-driven fractal formation of liquid alloy droplets is investigated with different solutes and reveals the formation of distinctive non-branched droplets, unstable fractals, and stable fractal modes under controlled voltage and alkaline solution conditions. In their individually unique fractal morphology diagrams, different liquid alloys demonstrate significantly shifted voltage thresholds in transition between the three fractal modes, depending on the choice of the solute metal. Surface tension measurements, cycle voltammetry and surface compositional characterizations provide strong evidence that the minor alloy components drastically alter the surface tension, surface electrochemical oxidation, and oxide dissolution processes that govern the droplet deformation and instability dynamics. The findings that minor components are able to regulate liquid alloys’ surface tensions, surface element distributions and electrochemical activities offer great promises for harnessing the tunability and functionality of liquid metals.
Text
Adv Funct Materials - 2023 - Yu
- Version of Record
More information
Accepted/In Press date: 22 April 2023
e-pub ahead of print date: 19 May 2023
Published date: 19 May 2023
Additional Information:
Funding Information:
This work was supported by the Australian Research Council (ARC) Discovery Early Career Researcher Award (DE220100816), the ARC Centres of Excellence FLEET (CE170100039), and the ARC Laureate Fellowship grant (FL180100053).
Publisher Copyright:
© 2023 The Authors. Advanced Functional Materials published by Wiley-VCH GmbH.
Keywords:
electrocapillary, electrochemical oxidation, fractal modes, liquid metals, surface tension
Identifiers
Local EPrints ID: 481928
URI: http://eprints.soton.ac.uk/id/eprint/481928
ISSN: 1616-301X
PURE UUID: add2c8a3-3c1c-43aa-a745-e70800a960a4
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Date deposited: 13 Sep 2023 17:10
Last modified: 06 Jun 2024 02:18
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Contributors
Author:
Ruohan Yu
Author:
Jialuo Han
Author:
Yuan Chi
Author:
Jiewei Zheng
Author:
Richard Fuchs
Author:
Mohammad B. Ghasemian
Author:
Md Arifur Rahim
Author:
Shi Yang Tang
Author:
Guangzhao Mao
Author:
Kourosh Kalantar-Zadeh
Author:
Jianbo Tang
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