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Polydopamine shell as a Ga3+Reservoir for triggering gallium-indium phase separation in eutectic gallium-Iidium nanoalloys

Polydopamine shell as a Ga3+Reservoir for triggering gallium-indium phase separation in eutectic gallium-Iidium nanoalloys
Polydopamine shell as a Ga3+Reservoir for triggering gallium-indium phase separation in eutectic gallium-Iidium nanoalloys

Low melting point eutectic systems, such as the eutectic gallium-indium (EGaIn) alloy, offer great potential in the domain of nanometallurgy; however, many of their interfacial behaviors remain to be explored. Here, a compositional change of EGaIn nanoalloys triggered by polydopamine (PDA) coating is demonstrated. Incorporating PDA on the surface of EGaIn nanoalloys renders core-shell nanostructures that accompany Ga-In phase separation within the nanoalloys. The PDA shell keeps depleting the Ga3+ from the EGaIn nanoalloys when the synthesis proceeds, leading to a Ga3+-coordinated PDA coating and a smaller nanoalloy. During this process, the eutectic nanoalloys turn into non-eutectic systems that ultimately result in the solidification of In when Ga is fully depleted. The reaction of Ga3+-coordinated PDA-coated nanoalloys with nitrogen dioxide gas is presented as an example for demonstrating the functionality of such hybrid composites. The concept of phase-separating systems, with polymeric reservoirs, may lead to tailored materials and can be explored on a variety of post-transition metals.

gas interaction, low melting point, phase separation, polymer, post-transition metals
1936-0851
16839-16850
Xie, Wanjie
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Allioux, Francois Marie
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Namivandi-Zangeneh, Rashin
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Ghasemian, Mohammad B.
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Han, Jialuo
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Rahim, Md Arifur
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Tang, Jianbo
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Yang, Jiong
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Mousavi, Maedehsadat
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Mayyas, Mohannad
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Cao, Zhenbang
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Centurion, Franco
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Christoe, Michael J.
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Zhang, Chengchen
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Wang, Yifang
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Merhebi, Salma
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Baharfar, Mahroo
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Ng, Gervase
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Esrafilzadeh, Dorna
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Boyer, Cyrille
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Kalantar-Zadeh, Kourosh
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Xie, Wanjie
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Allioux, Francois Marie
06fa4c1f-9d93-4fa4-bff6-2b4b4d497e95
Namivandi-Zangeneh, Rashin
77992577-1042-44b7-b6be-46f815fd86f5
Ghasemian, Mohammad B.
10f753c5-c1b6-4537-84a0-9c5ca9dadaf2
Han, Jialuo
56fce4b1-540d-4619-8542-bc61548224ab
Rahim, Md Arifur
1a336538-113c-494c-9dd9-04e7f466f323
Tang, Jianbo
87473905-8e35-48a1-a776-88080bb751b9
Yang, Jiong
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Mousavi, Maedehsadat
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Mayyas, Mohannad
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Cao, Zhenbang
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Centurion, Franco
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Christoe, Michael J.
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Zhang, Chengchen
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Wang, Yifang
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Merhebi, Salma
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Baharfar, Mahroo
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Ng, Gervase
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Esrafilzadeh, Dorna
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Boyer, Cyrille
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Kalantar-Zadeh, Kourosh
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Xie, Wanjie, Allioux, Francois Marie, Namivandi-Zangeneh, Rashin, Ghasemian, Mohammad B., Han, Jialuo, Rahim, Md Arifur, Tang, Jianbo, Yang, Jiong, Mousavi, Maedehsadat, Mayyas, Mohannad, Cao, Zhenbang, Centurion, Franco, Christoe, Michael J., Zhang, Chengchen, Wang, Yifang, Merhebi, Salma, Baharfar, Mahroo, Ng, Gervase, Esrafilzadeh, Dorna, Boyer, Cyrille and Kalantar-Zadeh, Kourosh (2021) Polydopamine shell as a Ga3+Reservoir for triggering gallium-indium phase separation in eutectic gallium-Iidium nanoalloys. ACS Nano, 15 (10), 16839-16850. (doi:10.1021/acsnano.1c07278).

Record type: Article

Abstract

Low melting point eutectic systems, such as the eutectic gallium-indium (EGaIn) alloy, offer great potential in the domain of nanometallurgy; however, many of their interfacial behaviors remain to be explored. Here, a compositional change of EGaIn nanoalloys triggered by polydopamine (PDA) coating is demonstrated. Incorporating PDA on the surface of EGaIn nanoalloys renders core-shell nanostructures that accompany Ga-In phase separation within the nanoalloys. The PDA shell keeps depleting the Ga3+ from the EGaIn nanoalloys when the synthesis proceeds, leading to a Ga3+-coordinated PDA coating and a smaller nanoalloy. During this process, the eutectic nanoalloys turn into non-eutectic systems that ultimately result in the solidification of In when Ga is fully depleted. The reaction of Ga3+-coordinated PDA-coated nanoalloys with nitrogen dioxide gas is presented as an example for demonstrating the functionality of such hybrid composites. The concept of phase-separating systems, with polymeric reservoirs, may lead to tailored materials and can be explored on a variety of post-transition metals.

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More information

Published date: 6 October 2021
Additional Information: Funding Information: The authors would like to acknowledge the Australian Research Council (ARC) Laureate Fellowship grant (FL180100053). The authors acknowledge the facilities and the scientific and technical assistance of Microscopy Australia at the Electron Microscope Unit (EMU) and the Surface Analysis Laboratory within the Mark Wainwright Analytical Centre (MWAC) at UNSW Sydney. Publisher Copyright: © 2021 American Chemical Society.
Keywords: gas interaction, low melting point, phase separation, polymer, post-transition metals

Identifiers

Local EPrints ID: 482311
URI: http://eprints.soton.ac.uk/id/eprint/482311
DOI: doi:10.1021/acsnano.1c07278
ISSN: 1936-0851
PURE UUID: 4b61199a-62eb-4437-b6f5-6ab3dfcbe09a
ORCID for Chengchen Zhang: ORCID iD orcid.org/0000-0001-8802-539X

Catalogue record

Date deposited: 26 Sep 2023 16:51
Last modified: 06 Jun 2024 02:19

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Contributors

Author: Wanjie Xie
Author: Francois Marie Allioux
Author: Rashin Namivandi-Zangeneh
Author: Mohammad B. Ghasemian
Author: Jialuo Han
Author: Md Arifur Rahim
Author: Jianbo Tang
Author: Jiong Yang
Author: Maedehsadat Mousavi
Author: Mohannad Mayyas
Author: Zhenbang Cao
Author: Franco Centurion
Author: Michael J. Christoe
Author: Chengchen Zhang ORCID iD
Author: Yifang Wang
Author: Salma Merhebi
Author: Mahroo Baharfar
Author: Gervase Ng
Author: Dorna Esrafilzadeh
Author: Cyrille Boyer
Author: Kourosh Kalantar-Zadeh

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