Sajjad S. Mofarah scite author profile

Liquid metals offer unprecedented chemistry. Here it is shown that they can facilitate self-limiting oxidation processes on their surfaces, which enables the growth of metal oxides that are atomically thin. This claim is exemplified by creating atomically thin hydrated MnO 2 using a Galvanic replacement reaction between permanganate ions and a liquid gallium-indium alloy (EGaIn). The "liquid solution"-"liquid metal" process leads to the reduction of the permanganate ions, resulting in the formation of the oxide monolayer at the interface. It is presented that under mechanical agitation liquid metal droplets are established, and simultaneously, hydrated gallium oxides and manganese oxide sheets delaminate themselves from the interfacial boundaries. The produced nanosheets encapsulate a metallic core, which is found to consist of solid indium only, with the full migration of gallium out of the droplets. This process produces core/shell structures, where the shells are made of stacked atomically thin nanosheets. The obtained core/shell structures are found to be an efficient photocatalyst for the degradation of an organic dye under simulated solar irradiation. This study presents a new research direction toward the modification and functionalization of liquid metals through spontaneous interfacial redox reactions, which has implications for many applications beyond photocatalysis.

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Defect engineering of oxide perovskites for catalysis and energy storage: synthesis of chemistry and materials science

Arandiyan

et al. 2021

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Design strategies for ceria nanomaterials: untangling key mechanistic concepts

Mofarah

Mehmood

et al. 2021

Mater. Horiz.

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Sajjad S. Mofarah

Self‐Limiting Galvanic Growth of MnO₂ Monolayers on a Liquid Metal—Applied to Photocatalysis

Defect engineering of oxide perovskites for catalysis and energy storage: synthesis of chemistry and materials science

Design strategies for ceria nanomaterials: untangling key mechanistic concepts

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Sajjad S. Mofarah

Self‐Limiting Galvanic Growth of MnO2 Monolayers on a Liquid Metal—Applied to Photocatalysis

Defect engineering of oxide perovskites for catalysis and energy storage: synthesis of chemistry and materials science

Design strategies for ceria nanomaterials: untangling key mechanistic concepts

Contact Info

Product

Resources

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Self‐Limiting Galvanic Growth of MnO₂ Monolayers on a Liquid Metal—Applied to Photocatalysis