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Graphene‐Like Multilayered CuS Nanosheets Assembled into Flower‐Like Microspheres and Their Electrocatalytic Oxygen Evolution Properties
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AbstractGraphene‐like two‐dimensional (2D) nanomaterials have many unique properties in diverse fields, but the synthesis method of graphene‐like CuS 2D nanomaterials is rarely studied. In this work, we reported that the CuS flower‐like superstructure microspheres with a solid core (CuS‐FSMs) were prepared by a facile hydrolysis method without a template or surfactant. The novel CuS‐FSM material showed a well‐define solid core of approximately 300–500 nm and a loose shell of 0.5–1 μm. More importantly, the loose shell of the CuS‐FSMs was constructed of graphene‐like CuS nanosheets (CuS‐GN). The formation mechanism indicated that the CuS‐FSMs were firstly formed on the surface of hexagonal prism‐shaped Cu3(TAA)3Cl3 precursors, and then the well‐defined solid core was produced through the Ostwald ripening of CuS‐GN. The electrocatalytic oxygen evolution reaction was employed as a probe reaction to gain insight into the properties of CuS‐FSMs, which exhibited a high limiting current density of 92.4 mA cm−2 and stability in 1 M KOH electrolyte.
Title: Graphene‐Like Multilayered CuS Nanosheets Assembled into Flower‐Like Microspheres and Their Electrocatalytic Oxygen Evolution Properties
Description:
AbstractGraphene‐like two‐dimensional (2D) nanomaterials have many unique properties in diverse fields, but the synthesis method of graphene‐like CuS 2D nanomaterials is rarely studied.
In this work, we reported that the CuS flower‐like superstructure microspheres with a solid core (CuS‐FSMs) were prepared by a facile hydrolysis method without a template or surfactant.
The novel CuS‐FSM material showed a well‐define solid core of approximately 300–500 nm and a loose shell of 0.
5–1 μm.
More importantly, the loose shell of the CuS‐FSMs was constructed of graphene‐like CuS nanosheets (CuS‐GN).
The formation mechanism indicated that the CuS‐FSMs were firstly formed on the surface of hexagonal prism‐shaped Cu3(TAA)3Cl3 precursors, and then the well‐defined solid core was produced through the Ostwald ripening of CuS‐GN.
The electrocatalytic oxygen evolution reaction was employed as a probe reaction to gain insight into the properties of CuS‐FSMs, which exhibited a high limiting current density of 92.
4 mA cm−2 and stability in 1 M KOH electrolyte.
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