Highly active Ni/Co-metal organic framework bifunctional electrocatalyst for water splitting reaction

Highly active Ni/Co-metal organic framework bifunctional electrocatalyst for water splitting reaction

Rational design of electrocatalycally active materials with excellent performance for renewable energy conversion is of great interest. We have developed a nanosheet array of Ni/Co metal-organic framework (MOF) grown on CoO modified Ni foam (CoO/NF) substrate via the solvothermal process. The high s...

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Published in:International journal of hydrogen energy Vol. 47; no. 54; pp. 22787 - 22795
Main Authors: Van Phuc, Tran, Jana, Jayasmita, Ravi, Nivetha, Kang, Sung Gu, Chung, Jin Suk, Choi, Won Mook, Hur, Seung Hyun
Format: Journal Article
Language:English
Published: Elsevier Ltd 29-06-2022
Subjects:
Electrocatalyst
HER
Metal-organic framework (MOF)
OER
Water splitting
Electrocatalyst
Water splitting
HER
Metal-organic framework (MOF)
OER
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Abstract Rational design of electrocatalycally active materials with excellent performance for renewable energy conversion is of great interest. We have developed a nanosheet array of Ni/Co metal-organic framework (MOF) grown on CoO modified Ni foam (CoO/NF) substrate via the solvothermal process. The high surface area and low resistance of Ni/Co-MOF@CoO/NF (NC@CoO/NF) catalyst contribute to efficient water splitting. We have prepared a series of NC-n/CoO/NF (n = 1–4) catalysts to optimize the molar ratio of the Co atom in Ni MOF-74. Among them, NC-2@CoO/NF shows an excellent electrochemical performance in alkaline medium, i.e., low overpotential of 290 and 139 mV for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER), respectively. For a two-electrode system with NC-2@CoO/NF, a low cell voltage of 1.54 V at 10 mA cm−2 has been obtained for overall water splitting which is much smaller than that with commercial Ir/C– Pt/C pair. This excellent performance can be attributed to the synergistic effects of Ni/Co-MOF and CoO/NF. In addition, the as-prepared NC-2@CoO/NF exhibits excellent long-term stability. The computational simulation also supports experimental results. [Display omitted] •Highly porous Ni/Co bimetallic MOF were grown on CoO modified Ni Form.•As-synthesized catalysts showed an excellent HER and OER properties.•Computational simulation reveled the synergetic effects of Co on Ni-MOF.
AbstractList Rational design of electrocatalycally active materials with excellent performance for renewable energy conversion is of great interest. We have developed a nanosheet array of Ni/Co metal-organic framework (MOF) grown on CoO modified Ni foam (CoO/NF) substrate via the solvothermal process. The high surface area and low resistance of Ni/Co-MOF@CoO/NF (NC@CoO/NF) catalyst contribute to efficient water splitting. We have prepared a series of NC-n/CoO/NF (n = 1–4) catalysts to optimize the molar ratio of the Co atom in Ni MOF-74. Among them, NC-2@CoO/NF shows an excellent electrochemical performance in alkaline medium, i.e., low overpotential of 290 and 139 mV for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER), respectively. For a two-electrode system with NC-2@CoO/NF, a low cell voltage of 1.54 V at 10 mA cm−2 has been obtained for overall water splitting which is much smaller than that with commercial Ir/C– Pt/C pair. This excellent performance can be attributed to the synergistic effects of Ni/Co-MOF and CoO/NF. In addition, the as-prepared NC-2@CoO/NF exhibits excellent long-term stability. The computational simulation also supports experimental results. [Display omitted] •Highly porous Ni/Co bimetallic MOF were grown on CoO modified Ni Form.•As-synthesized catalysts showed an excellent HER and OER properties.•Computational simulation reveled the synergetic effects of Co on Ni-MOF.
Author Chung, Jin Suk
Choi, Won Mook
Jana, Jayasmita
Ravi, Nivetha
Kang, Sung Gu
Van Phuc, Tran
Hur, Seung Hyun
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SSID ssj0017049
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Snippet Rational design of electrocatalycally active materials with excellent performance for renewable energy conversion is of great interest. We have developed a...
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SubjectTerms Electrocatalyst
HER
Metal-organic framework (MOF)
OER
Water splitting
Title Highly active Ni/Co-metal organic framework bifunctional electrocatalyst for water splitting reaction
URI https://dx.doi.org/10.1016/j.ijhydene.2022.05.097
Volume 47
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