Hard-templated engineering of versatile 2D amorphous metal oxide nanosheets

Chang, Ling; Feng, Wei; Xia, Yan; Jiang, Qvzi; Dong, Angang; Chen, Yu

doi:10.1088/1361-6528/ac59e7

Nanotechnology

2022

DOI: 10.1088/1361-6528/ac59e7

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Hard-templated engineering of versatile 2D amorphous metal oxide nanosheets

Ling Chang¹,

Wei Feng²,

Yan Xia³

et al.

Abstract: Two-dimensional (2D) nanomaterials have received ever-increasing attention and in-depth exploration in multifarious fields on account of their superior mass transfer ability and abundant catalytic-active sites. Especially, the amorphous 2D nanomaterials feature unique properties distinct from atomic crystalline materials. However, the synthesis of high-quality and large-sized amorphous 2D nanomaterials encounters a big challenge. Here, a general and facile synthetic strategy for a series of 2D amorphous metal … Show more

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Cited by 3 publications

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Universal Synthesis of Amorphous Metal Oxide Nanomeshes

Li,

Yu,

et al. 2024

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Constructing the pore structures in amorphous metal oxide nanosheets can enhance their electrocatalytic performance by efficiently increasing specific surface areas and facilitating mass transport in electrocatalysis. However, the accurate synthesis for porous amorphous metal oxide nanosheets remains a challenge. Herein, a facile nitrate‐assisted oxidation strategy is reported for synthesizing amorphous mesoporous iridium oxide nanomeshes (a‐m IrOx NMs) with a pore size of ∼4 nm. X‐ray absorption characterizations indicate that a‐m IrOx NMs possess stretched Ir─O bonds and weaker Ir–O interaction compared with commercial IrO2. Combining thermogravimetric‐fourier transform infrared spectroscopy with differential scanning calorimetry measurements, it is demonstrated that sodium nitrate, acting as an oxidizing agent, is conducive to the formation of amorphous nanosheets, while the NO2 produced by the in situ decomposition of nitrates facilitates the generation of pores within the nanomeshes. As an anode electrocatalyst in proton exchange membrane water electrolyzer, a‐m IrOx NMs exhibit superior performance, maintaining a cell voltage of 1.67 V at 1 A cm−2 for 120 h without obvious decay with a low loading (0.4 mgcatalyst cm−2). Furthermore, the nitrate‐assisted method is demonstrated to be a general approach to prepare various amorphous metal oxide nanomeshes, including amorphous RhOx, TiOx, ZrOx, AlOx, and HfOx nanomeshes.

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Universal Synthesis of Amorphous Metal Oxide Nanomeshes

Li,

Yu,

et al. 2024

Small

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Understanding how the crystalline nature of Fe-promoted alumino-borate PKU-1 catalyst affects Glycerin ketalization: The systematic control of surface composition and acidity

Wang

Zeng

et al. 2023

Applied Catalysis A: General

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The influences of atom relaxation on the DFT-calculated friction properties of the h-BN/h-BN and Gr/Gr interfaces

Wang

et al. 2022

Tribology International

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Hard-templated engineering of versatile 2D amorphous metal oxide nanosheets

Cited by 3 publications

References 44 publications

Universal Synthesis of Amorphous Metal Oxide Nanomeshes

Universal Synthesis of Amorphous Metal Oxide Nanomeshes

Understanding how the crystalline nature of Fe-promoted alumino-borate PKU-1 catalyst affects Glycerin ketalization: The systematic control of surface composition and acidity

The influences of atom relaxation on the DFT-calculated friction properties of the h-BN/h-BN and Gr/Gr interfaces

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