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Manipulating the Architecture of Atomically Thin Transition Metal (Hydr)oxides for Enhanced Oxygen Evolution Catalysis

journal contribution
posted on 2024-11-16, 05:21 authored by Yuhai Dou, Lei Zhang, Jiantie Xu, Chun-Ting He, Xun XuXun Xu, Ziqi Sun, Ting Liao, Balazs Nagy, Porun Liu, Shi DouShi Dou
Graphene-like nanomaterials have received tremendous research interest due to their atomic thickness and fascinating properties. Previous studies mainly foc us on the modulation of their electronic structures, which undoubtedly optimizes the electronic properties, but is not the only determinant of performance in practical applications. Herein, we propose a generalized strategy to incrementally manipulate the architectures of several atomically thin transition metal (hydr)oxides, and study their effects on catalytic water oxidation. The results demonstrate the obvious superiority of a wrinkled nanosheet architecture in both catalytic activity and durability. For instance, wrinkled Ni(OH) 2 nanosheets display a low overpotential of 358.2 mV at 10 mA cm -2 , a high current density of 187.2 mA cm -2 at 500 mV, a small Tafel slope of 54.4 mV dec -1 , and excellent long-term durability with gradually optimized performance, significantly outperforming other nanosheet architectures and previously reported catalysts. The outstanding catalytic performance is mainly attributable to the 3D porous network structure constructed by wrinkled nanosheets, which not only provides sufficient contact between electrode materials and current collector, but also offers highly accessible channels for facile electrolyte diffusion and efficient O 2 escape. Our study provides a perspective on improving the performance of graphene-like nanomaterials in a wide range of practical applications.

Funding

Multifunctional 2D materials for sustainable energy applications

Australian Research Council

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Citation

Dou, Y., Zhang, L., Xu, J., He, C., Xu, X., Sun, Z., Liao, T., Nagy, B., Liu, P. & Dou, S. Xue. (2018). Manipulating the Architecture of Atomically Thin Transition Metal (Hydr)oxides for Enhanced Oxygen Evolution Catalysis. ACS Nano, 12 (2), 1878-1886.

Journal title

ACS Nano

Volume

12

Issue

2

Pagination

1878-1886

Language

English

RIS ID

123163

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