Pulsing liquid alloys for nanomaterials synthesis
Pulsing liquid alloys for nanomaterials synthesis
Although it remains unexplored, the direct synthesis and expulsion of metals from alloys can offer many opportunities. Here, such a phenomenon is realized electrochemically by applying a polarizing voltage signal to liquid alloys. The signal induces an abrupt interfacial perturbation at the Ga-based liquid alloy surface and results in an unrestrained discharge of minority elements, such as Sn, In, and Zn, from the liquid alloy. We show that this can occur by either changing the surface tension or inducing a reversible redox reaction at the alloys' interface. The expelled metals exhibit nanosized and porous morphologies, and depending on the cell electrochemistry, these metals can be passivated with oxide layers or fully oxidized into distinct nanostructures. The proposed concept of metal expulsion from liquid alloys can be extended to a wide variety of molten metals for producing metallic and metallic compound nanostructures for advanced applications.
Electrochemistry, Liquid metal, Liquid-liquid interface, Nanosynthesis, Pulsing metal
14070-14079
Mayyas, Mohannad
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Kalantar-Zadeh, Kourosh
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Mousavi, Maedehsadat
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Ghasemian, Mohammad B.
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Abbasi, Roozbeh
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Li, Hongzhe
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Christoe, Michael J.
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Han, Jialuo
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Wang, Yifang
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Zhang, Chengchen
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Rahim, M. Arifur
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Tang, Jianbo
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Yang, Jiong
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Esrafilzadeh, Dorna
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Jalili, Rouhollah
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Allioux, Francois Marie
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O'Mullane, Anthony P.
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27 October 2020
Mayyas, Mohannad
9f9295c4-deda-4289-9cc8-bba31bce5c99
Kalantar-Zadeh, Kourosh
aded6a64-8612-40b7-aae9-233fbae916a6
Mousavi, Maedehsadat
43bca89f-f14f-4c48-95f2-8a3b021945de
Ghasemian, Mohammad B.
10f753c5-c1b6-4537-84a0-9c5ca9dadaf2
Abbasi, Roozbeh
e052784f-2858-4c2d-aff8-2fee6fcd479d
Li, Hongzhe
ba8a88c2-e5d4-4b56-ba1c-91db3eac2393
Christoe, Michael J.
7e6b2bde-aa5a-463d-8d58-b0c87ef563ee
Han, Jialuo
56fce4b1-540d-4619-8542-bc61548224ab
Wang, Yifang
e6b9a4e5-a91b-418e-9e14-a877e5fcc32c
Zhang, Chengchen
abc47c06-4b99-4aed-be72-463f211e9dfa
Rahim, M. Arifur
1a336538-113c-494c-9dd9-04e7f466f323
Tang, Jianbo
87473905-8e35-48a1-a776-88080bb751b9
Yang, Jiong
69a8f107-4f74-495f-9944-f15e966ef87c
Esrafilzadeh, Dorna
5b245c2f-64b0-4d63-8477-ef183d9ea152
Jalili, Rouhollah
cb43aeb5-25fd-48ca-a4d2-be016eea3fef
Allioux, Francois Marie
06fa4c1f-9d93-4fa4-bff6-2b4b4d497e95
O'Mullane, Anthony P.
034315cf-2c47-4388-9108-4768d97f1442
Mayyas, Mohannad, Kalantar-Zadeh, Kourosh, Mousavi, Maedehsadat, Ghasemian, Mohammad B., Abbasi, Roozbeh, Li, Hongzhe, Christoe, Michael J., Han, Jialuo, Wang, Yifang, Zhang, Chengchen, Rahim, M. Arifur, Tang, Jianbo, Yang, Jiong, Esrafilzadeh, Dorna, Jalili, Rouhollah, Allioux, Francois Marie and O'Mullane, Anthony P.
(2020)
Pulsing liquid alloys for nanomaterials synthesis.
ACS Nano, 14 (10), .
(doi:10.1021/acsnano.0c06724).
Abstract
Although it remains unexplored, the direct synthesis and expulsion of metals from alloys can offer many opportunities. Here, such a phenomenon is realized electrochemically by applying a polarizing voltage signal to liquid alloys. The signal induces an abrupt interfacial perturbation at the Ga-based liquid alloy surface and results in an unrestrained discharge of minority elements, such as Sn, In, and Zn, from the liquid alloy. We show that this can occur by either changing the surface tension or inducing a reversible redox reaction at the alloys' interface. The expelled metals exhibit nanosized and porous morphologies, and depending on the cell electrochemistry, these metals can be passivated with oxide layers or fully oxidized into distinct nanostructures. The proposed concept of metal expulsion from liquid alloys can be extended to a wide variety of molten metals for producing metallic and metallic compound nanostructures for advanced applications.
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More information
Published date: 27 October 2020
Additional Information:
Funding Information:
This work has been accomplished with the support of the Australian Research Council (ARC) Laureate Fellowship grant (FL180100053) and the ARC Center of Excellence FLEET (CE170100039). D.E. acknowledges Scientia Fellowship scheme at The University of New South Wales (UNSW). R.J. acknowledges the ARC for financial support through the Discovery Early Career Researcher Award (DE180100215). Authors would like to acknowledge the technical assistance of the Mark Wainwright Analytical Centre at UNSW.
Publisher Copyright:
© 2020 American Chemical Society.
Keywords:
Electrochemistry, Liquid metal, Liquid-liquid interface, Nanosynthesis, Pulsing metal
Identifiers
Local EPrints ID: 482316
URI: http://eprints.soton.ac.uk/id/eprint/482316
ISSN: 1936-0851
PURE UUID: d6fc26e1-1657-424f-bd14-e6de6bf6e8ad
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Date deposited: 26 Sep 2023 16:51
Last modified: 18 Mar 2024 04:15
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Contributors
Author:
Mohannad Mayyas
Author:
Kourosh Kalantar-Zadeh
Author:
Maedehsadat Mousavi
Author:
Mohammad B. Ghasemian
Author:
Roozbeh Abbasi
Author:
Hongzhe Li
Author:
Michael J. Christoe
Author:
Jialuo Han
Author:
Yifang Wang
Author:
Chengchen Zhang
Author:
M. Arifur Rahim
Author:
Jianbo Tang
Author:
Jiong Yang
Author:
Dorna Esrafilzadeh
Author:
Rouhollah Jalili
Author:
Francois Marie Allioux
Author:
Anthony P. O'Mullane
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