Overall Water-Splitting Electrocatalysts Based on 2D CoNi-Metal-Organic Frameworks and Its Derivative

Mengjie Liu; Weiran Zheng; Sijia Ran; Steven T. Boles; Lawrence Yoon Suk Lee

doi:10.1002/admi.201800849

Overall Water-Splitting Electrocatalysts Based on 2D CoNi-Metal-Organic Frameworks and Its Derivative

Mengjie Liu, Weiran Zheng, Sijia Ran, Steven T. Boles, Lawrence Yoon Suk Lee^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

70 Scopus citations

Abstract

Efficient electrocatalysts composed of non-precious elements are central to the development of overall water-splitting system. Herein, it is demonstrated that 2D CoNi-metal-organic framework (CoNi-MOF) array grown directly on a Cu substrate is a highly efficient and stable electrocatalyst for oxygen evolution reaction with a low overpotential (265 mV at 10 mA cm⁻²) in alkaline medium. With the combination of in situ conducting atomic force microscopy and two-point conductivity measurements, it is revealed that the electron transfer is facilitated along the Z-axis better than the other directions, which can lead to an enhanced catalytic activity. In addition, a simple annealing treatment converts this 2D CoNi-MOF to a hybrid nanoplate array of metallic nitrides on an amorphous carbon network, which catalyzes the hydrogen evolution reaction with a compatible overpotential of 120 mV (at 10 mA cm⁻²) and excellent stability. The overall water splitting using these 2D CoNi-MOF-based catalysts shows a 99% Faradaic efficiency at 1.64 V, suggesting a promising pathway forward for the commercial realization of complete water-splitting systems.

Original language	English
Article number	1800849
Journal	Advanced Materials Interfaces
Volume	5
Issue number	21
DOIs	https://doi.org/10.1002/admi.201800849
State	Published - 9 Nov 2018
Externally published	Yes

Keywords

2D metal–organic frameworks
bimetallic metal–organic frameworks
electrocatalyst
nanoplate array
water splitting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/admi.201800849

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title = "Overall Water-Splitting Electrocatalysts Based on 2D CoNi-Metal-Organic Frameworks and Its Derivative",

abstract = "Efficient electrocatalysts composed of non-precious elements are central to the development of overall water-splitting system. Herein, it is demonstrated that 2D CoNi-metal-organic framework (CoNi-MOF) array grown directly on a Cu substrate is a highly efficient and stable electrocatalyst for oxygen evolution reaction with a low overpotential (265 mV at 10 mA cm−2) in alkaline medium. With the combination of in situ conducting atomic force microscopy and two-point conductivity measurements, it is revealed that the electron transfer is facilitated along the Z-axis better than the other directions, which can lead to an enhanced catalytic activity. In addition, a simple annealing treatment converts this 2D CoNi-MOF to a hybrid nanoplate array of metallic nitrides on an amorphous carbon network, which catalyzes the hydrogen evolution reaction with a compatible overpotential of 120 mV (at 10 mA cm−2) and excellent stability. The overall water splitting using these 2D CoNi-MOF-based catalysts shows a 99% Faradaic efficiency at 1.64 V, suggesting a promising pathway forward for the commercial realization of complete water-splitting systems.",

keywords = "2D metal–organic frameworks, bimetallic metal–organic frameworks, electrocatalyst, nanoplate array, water splitting",

author = "Mengjie Liu and Weiran Zheng and Sijia Ran and Boles, {Steven T.} and Lee, {Lawrence Yoon Suk}",

note = "Publisher Copyright: {\textcopyright} 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim",

year = "2018",

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doi = "10.1002/admi.201800849",

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T1 - Overall Water-Splitting Electrocatalysts Based on 2D CoNi-Metal-Organic Frameworks and Its Derivative

AU - Liu, Mengjie

AU - Zheng, Weiran

AU - Ran, Sijia

AU - Boles, Steven T.

AU - Lee, Lawrence Yoon Suk

PY - 2018/11/9

Y1 - 2018/11/9

N2 - Efficient electrocatalysts composed of non-precious elements are central to the development of overall water-splitting system. Herein, it is demonstrated that 2D CoNi-metal-organic framework (CoNi-MOF) array grown directly on a Cu substrate is a highly efficient and stable electrocatalyst for oxygen evolution reaction with a low overpotential (265 mV at 10 mA cm−2) in alkaline medium. With the combination of in situ conducting atomic force microscopy and two-point conductivity measurements, it is revealed that the electron transfer is facilitated along the Z-axis better than the other directions, which can lead to an enhanced catalytic activity. In addition, a simple annealing treatment converts this 2D CoNi-MOF to a hybrid nanoplate array of metallic nitrides on an amorphous carbon network, which catalyzes the hydrogen evolution reaction with a compatible overpotential of 120 mV (at 10 mA cm−2) and excellent stability. The overall water splitting using these 2D CoNi-MOF-based catalysts shows a 99% Faradaic efficiency at 1.64 V, suggesting a promising pathway forward for the commercial realization of complete water-splitting systems.

AB - Efficient electrocatalysts composed of non-precious elements are central to the development of overall water-splitting system. Herein, it is demonstrated that 2D CoNi-metal-organic framework (CoNi-MOF) array grown directly on a Cu substrate is a highly efficient and stable electrocatalyst for oxygen evolution reaction with a low overpotential (265 mV at 10 mA cm−2) in alkaline medium. With the combination of in situ conducting atomic force microscopy and two-point conductivity measurements, it is revealed that the electron transfer is facilitated along the Z-axis better than the other directions, which can lead to an enhanced catalytic activity. In addition, a simple annealing treatment converts this 2D CoNi-MOF to a hybrid nanoplate array of metallic nitrides on an amorphous carbon network, which catalyzes the hydrogen evolution reaction with a compatible overpotential of 120 mV (at 10 mA cm−2) and excellent stability. The overall water splitting using these 2D CoNi-MOF-based catalysts shows a 99% Faradaic efficiency at 1.64 V, suggesting a promising pathway forward for the commercial realization of complete water-splitting systems.

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KW - bimetallic metal–organic frameworks

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KW - nanoplate array

KW - water splitting

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Overall Water-Splitting Electrocatalysts Based on 2D CoNi-Metal-Organic Frameworks and Its Derivative

Abstract

Keywords

UN SDGs

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