Liquid metal synthesis solvents for metallic crystals

Idrus-Saidi, Shuhada A.; Tang, Jianbo; Lambie, Stephanie; Han, Jialuo; Mayyas, Mohannad; Ghasemian, Mohammad B.; Allioux, François-Marie; Cai, Shengxiang; Koshy, Pramod; Mostaghimi, Peyman; Steenbergen, Krista G.; Barnard, Amanda S.; Daeneke, Torben; Gaston, Nicola; Kalantar‐zadeh, Kourosh

doi:10.1126/science.abm2731

Cited by 64 publications

(50 citation statements)

References 55 publications

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“…Because the generated copper particles stop growing after their internalization, it is possible to regulate their size by varying the growth rate and growth time, both of which may be controlled by the concentrations of hydrogen ions and copper ions in the liquid system. It is expected to generate the size-controlled copper particles from the liquid metal solvent by applying a positive potential or a polarizing voltage due to the reduction of surface tension. , While the oxidation process plays a leading role in the synergistic effect under the high concentration of Cu 2+ , the copper particles can remain stably on the surface of the liquid metal in mode 2 (Figure b). Therefore, the formation and dissolution of the oxide layer are critical for the surface states of the liquid metal.…”

Section: Resultsmentioning

confidence: 99%

“…It is expected to generate the size-controlled copper particles from the liquid metal solvent by applying a positive potential or a polarizing voltage due to the reduction of surface tension. 47,48 While the oxidation process plays a leading role in the synergistic effect under the high concentration of Cu 2+ , the copper particles can remain stably on the surface of the liquid metal in mode 2 (Figure 3b). Therefore, the formation and dissolution of the oxide layer are critical for the surface states of the liquid metal.…”

Section: Mechanism Of Synergistic Effectmentioning

confidence: 99%

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Surface Oxidation and Wetting Synergistic Effect of Liquid Metals

Wang

Chang

Rao

2023

ACS Appl. Mater. Interfaces

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Various functions of liquid metals are closely related to their surface performances, among which oxidation and wetting are the two most important surface processes. The two processes of liquid metals are inseparable in most practical applications; however, the coupling of oxidation and wetting of liquid metals has received little attention. Here, we demonstrate the synergistic effect of oxidation and wetting of liquid metals through establishing a liquid system containing the copper ion acid solution. By modulating the concentrations of copper ions and hydrogen ions, three different modes of the liquid metal surface are presented, where the oxidation process and the wetting process are in a competitive relationship. Whichever of the two processes is dominant can determine the stability of copper particles produced on the surface of liquid metals, that is, affect whether the “phagocytosis” process can occur. It is revealed that the magnitude of current density on the surface of liquid metals, caused by galvanic corrosion behavior between liquid metals and copper particles, is the key factor influencing the dominance of different surface processes of liquid metals. Utilizing the synergistic effect, we prepare a liquid metal film with adjustable reflectivity, in which surface states can be changed repeatedly between the bright state and the darken state by simple solution immersion. The liquid metal film with different surface states can show obvious difference in optical performance, which has application potential in color camouflage. Understanding the surface synergistic effect will facilitate further exploration of the abundant exotic liquid metal interface phenomena.

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Section: Resultsmentioning

confidence: 99%

Section: Mechanism Of Synergistic Effectmentioning

confidence: 99%

Surface Oxidation and Wetting Synergistic Effect of Liquid Metals

Wang

Chang

Rao

2023

ACS Appl. Mater. Interfaces

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“…In this work, the morphological and chemical changes of Ni–20Cr in molten KCl–MgCl 2 (50–50 mol %) at 600 °C were studied by combining multimodal in situ synchrotron transmission X-ray and electron microscopy. The development of the combined multiscale techniques can be applied to study a broader range of functional materials, while their morphological evolution occurs in a liquid medium including chemical reactions in various liquid media and material processing such as crystal growth with fine features in liquid metals . The in situ heating, fast scan acquisition, and nondestructive advantages of synchrotron X-ray nanotomography will be invaluable for time-resolved studies on dynamical and kinetic studies for the synthesis or performance of material applications.…”

Section: Discussionmentioning

confidence: 99%

Temperature-Dependent Morphological Evolution during Corrosion of the Ni-20Cr Alloy in Molten Salt Revealed by Multiscale Imaging

Liu

Bawane

Zheng

et al. 2023

ACS Appl. Mater. Interfaces

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Understanding the mechanisms leading to the degradation of alloys in molten salts at elevated temperatures is significant for developing several key energy generation and storage technologies, including concentrated solar and next-generation nuclear power plants. Specifically, the fundamental mechanisms of different types of corrosion leading to various morphological evolution characteristics for changing reaction conditions between the molten salt and alloy remain unclear. In this work, the three-dimensional (3D) morphological evolution of Ni–20Cr in KCl–MgCl2 is studied at 600 °C by combining in situ synchrotron X-ray and electron microscopy techniques. By further comparing different morphology evolution characteristics in the temperature range of 500–800 °C, the relative rates between diffusion and reaction at the salt–metal interface lead to different morphological evolution pathways, including intergranular corrosion and percolation dealloying. In this work, the temperature-dependent mechanisms of the interactions between metals and molten salts are discussed, providing insights for predicting molten salt corrosion in real-world applications.

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“…For example, Kourosh et al. adopted an innovative method combining electrocapillary modulation and vacuum filtration to prepare different forms and various types of micro and nano crystals of zinc, and can control their crystallinity and shape by using low melting point gallium indium alloys as “metal solvents” (Figure 8a–b), This method solves the problem that it is very difficult to extract crystals due to the high surface tension of LMs in the past [104] . This research has important significance for promoting the development of material science and engineering fields.…”

Section: Relevant Applications Of Glm Particlesmentioning

confidence: 99%

Nanoarchitectonics and Applications of Gallium‐Based Liquid Metal Micro‐ and Nanoparticles

Zhang

Xia

2023

ChemNanoMat

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In recent years, gallium‐based liquid metal (GLM) is an attractive material because of its excellent characteristics such as ultra‐low melting point, high fluidity, high conductivity, self‐healing and so on. GLMs have unique properties at micro and nano scales, such as core‐shell structure, sinterability, biocompatibility and photothermal conversion ability and so on, which promote the development of relevant application directions. Therefore, various preparation methods of GLM particles and conductive connection of GLM nanoparticles through various sintering methods are reviewed in this paper. In addition, GLM particles also show great prospects in flexible circuits, sensor detection, medical treatment, energy production and other fields

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Liquid metal synthesis solvents for metallic crystals

Cited by 64 publications

References 55 publications

Surface Oxidation and Wetting Synergistic Effect of Liquid Metals

Surface Oxidation and Wetting Synergistic Effect of Liquid Metals

Temperature-Dependent Morphological Evolution during Corrosion of the Ni-20Cr Alloy in Molten Salt Revealed by Multiscale Imaging

Nanoarchitectonics and Applications of Gallium‐Based Liquid Metal Micro‐ and Nanoparticles

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