Design and development of molten metal nanomaterials using sonochemistry for multiple applications

Vijay Bhooshan Kumar

Research output: Contribution to journalReview articlepeer-review

2 Scopus citations

Abstract

Molten metals have prospective applications as soft fluids with unique physical and chemical properties, yet materials based on them are still in their infancy and have great potential. Ultrasonic irradiation of molten metals in liquid media induces acoustic cavitation and dispersion of the liquid metal into micrometric and nanometric spheres. This review focuses on the synthesis of mmetallic materials via sonochemistry from molten metals with low melting point (< 420 ᴼC): Ga, Hg, In, Sn, Bi, Pb, and Zn, which can be melted in organic or inorganic media or water and of aqueous solutions of metallic ions to form two immiscible liquid phases. Organic molecule entrapment, polymer solubilization, chiral imprinting, and catalyst incorporation within metals or metallic particles were recently developed to provide novel hybrid nanomaterials for several applications including catalysis, fuel cells, and biomass-to-biofuel conversion. In all cases where molten metal was sonicated in an organic solvent, in addition to a solid precipitant, an interesting supernatant was obtained that contained metal-doped carbon dots (M@C-dots). Some of these M@C-dots were found to exhibit highly effective antimicrobial activity, promote neuronal tissue growth, or have utility in lithium-ion rechargeable batteries. The economic feasibility and commercial scalability of molten metal sonochemistry attract fundamental interest in the reaction mechanisms, as the versatility and controllability of the structure and material properties invite exploration of various applications.

Original languageEnglish
Article number102934
JournalAdvances in Colloid and Interface Science
Volume318
DOIs
StatePublished - Aug 2023

Bibliographical note

Publisher Copyright:
© 2023

Funding

My sincere gratitude is extended to my Ph.D. supervisors, Prof. Aharon Gedanken at Bar-Ilan University and Prof. Zeev Porat at the Nuclear Research Center-Negev in Israel, who have shaped my research career and personality development. Furthermore, the authors would like to thank the Department of Chemistry and Bar-Ilan Institute of Nanotechnology and Advanced Materials (BINA) at Bar-Ilan University for providing the infrastructure and continuous support for this research. My sincere gratitude is extended to my Ph.D. supervisors, Prof. Aharon Gedanken at Bar-Ilan University and Prof. Zeev Porat at the Nuclear Research Center-Negev in Israel, who have shaped my research career and personality development. Furthermore, the authors would like to thank the Department of Chemistry and Bar-Ilan Institute of Nanotechnology and Advanced Materials (BINA) at Bar-Ilan University for providing the infrastructure and continuous support for this research.

FundersFunder number
BINA
Department of Chemistry and Bar-Ilan Institute of Nanotechnology and Advanced Materials
Nuclear Research Center-Negev in Israel

    Keywords

    • Applications
    • M@C-dots
    • Metal micro-/nano-sphere
    • Molten metal
    • Sonochemistry

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