Atomic Dispersion via High‐Entropy Liquid Metal Alloys-Reference-Cited by-同舟云学术

Atomic Dispersion via High‐Entropy Liquid Metal Alloys

Published:2024-06-30 Issue: Volume: Page:
ISSN:2688-4062
Container-title:Small Structures
language:en
Short-container-title:Small Structures

Author:

Allioux Francois‐Marie¹²^ORCID,Nazari Sahar²,Ghasemian Mohammad B.¹²,Zavabeti Ali³⁴,Pei Zengxia¹,Leverett Josh²,Rafiezadeh Somayeh⁵,Salih Amar K.⁵,Irvine Curtis P.⁵,Baharfar Mahroo²,Bardet Laetitia²,Widjajana Moonika S.¹²,Chi Yuan²,Esrafilzadeh Dorna⁶,Jalili Ali R.²,Haghdadi Nima⁷⁸,Tang Jianbo²,Laws Kevin J.⁷,Ton‐That Cuong⁵,Daeneke Torben⁴⁹,Daiyan Rahman²¹⁰,Rahim Md Arifur¹²,Kalantar‐Zadeh Kourosh¹²^ORCID

Affiliation:

1. School of Chemical and Biomolecular Engineering The University of Sydney Sydney NSW 2008 Australia

2. School of Chemical Engineering University of New South Wales (UNSW) Sydney NSW 2052 Australia

3. Department of Chemical Engineering The University of Melbourne Parkville VIC 3010 Australia

4. School of Science RMIT University Melbourne VIC 3001 Australia

5. School of Mathematical and Physical Sciences University of Technology Sydney Ultimo NSW 2007 Australia

6. Graduate School of Biomedical Engineering UNSW Sydney NSW 2052 Australia

7. School of Materials Science & Engineering UNSW Sydney Kensington NSW 2052 Australia

8. Department of Materials Imperial College London London SW7 2AZ UK

9. School of Engineering RMIT University 124 La Trobe Street Melbourne 3000 Australia

10. School of Minerals and Energy Engineering The University of New South Wales Sydney 2052 Australia

Abstract

Gallium‐based liquid metal alloys exhibit unconventional and intriguing properties as metallic solvents, demonstrating an exceptional potential to dissolve and reconfigure a vast array of elements within the liquid metal matrix. Leveraging on these distinctive characteristics of gallium‐based alloys, the synthesis of high‐entropy liquid metal alloys (HELMAs) in low dimensions is reported. The nanoscale HELMAs offer advantages including the solvation of multiple metallic elements at room temperature, while promoting their atomic dispersion at elevated concentrations. Entropy estimations for HELMAs surpass those of high‐temperature molten metals, leading to the realization of high‐entropy liquid metal systems at room temperature. Through a proof‐of‐concept hydrogen evolution reaction comparison, the potential of these HELMAs in enhancing the activities of nanocatalysts is demonstrated. In this case, atomic dispersion of Pt is shown in senary GaIn‐AuCuPtPd HELMA, contrasting with lower entropy systems in which Pt forms discernible clusters. These presented features can lead to catalytic systems with enhanced and tailored activities.

Funder

Australian Research Council

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/sstr.202400294

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