Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction
Metal-organic frameworks (MOFs) have emerged as promising electrocatalysts due to their controllability and diversity in functional species of metal centers and organic linkers. Herein, two-dimensional (2D) bimetal-MOFs (CoxFe-MOF) nanosheets with a thickness of similar to 10 nm are synthesized and...
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sg-ntu-dr.10356-1549152022-01-14T06:31:48Z Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction Li, Weixin Fang, Wei Wu, Chen Dinh, Khang Ngoc Ren, Hao Zhao, Lei Liu, Chuntai Yan, Qingyu School of Materials Science and Engineering Engineering::Materials Metal-Organic-Frameworks Highly Efficient Metal-organic frameworks (MOFs) have emerged as promising electrocatalysts due to their controllability and diversity in functional species of metal centers and organic linkers. Herein, two-dimensional (2D) bimetal-MOFs (CoxFe-MOF) nanosheets with a thickness of similar to 10 nm are synthesized and employed for OER and NRR in alkaline medium. By regulating the composition of CoxFe-MOF, the optimized Co₃Fe-MOF can achieve an overpotential of 280 mV at a current density of 10 mA cm(⁻²) with a small Tafel slope of 38 mV dec(-1) in 1.0 M KOH electrolyte, outperforming the commercial RuO₂ (351 mV at 10 mA cm(-2), 99 mV dec(-1)). The enhanced OER performance can be attributed to the abundant active centers and the positive coupling effect between Co and Fe metal ions in the MOF. Additionally, the NRR performance of the obtained Co₃Fe-MOF is evaluated on glassy carbon electrode to achieve real NH₃ faradaic efficiencies (FE) and NH₃ yield rates. The Co₃Fe-MOF delivers a FE up to 25.64% with the corresponding NH₃ yield rate of 8.79 mu g h(-1) mg(cat)(-1) at -0.2 V versus the reversible hydrogen electrode (vs. RHE) in 0.1 M KOH electrolyte. The results indicate the potential application of 2D MOFs in NRR and provide the rational design of efficient electrocatalysts for coupling both OER and NRR in a full-cell configuration. Ministry of Education (MOE) National Research Foundation (NRF) This work was financially supported by Singapore MOE AcRF Tier 2 under Grant No. 2018-T2-01-010, National Research Foundation of Singapore (NRF) Investigatorship, Award Number NRF2016NRF-NRFI001-22 and the China Scholarship Council (201808420125). The authors thank the Facility for Analysis, Characterization, Testing and Simulation (FACTS) of Nanyang Technological University, Singapore, for technical support and the 111 Project (D18023) from Zhengzhou University. 2022-01-14T06:31:48Z 2022-01-14T06:31:48Z 2020 Journal Article Li, W., Fang, W., Wu, C., Dinh, K. N., Ren, H., Zhao, L., Liu, C. & Yan, Q. (2020). Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction. Journal of Materials Chemistry A, 8(7), 3658-3666. https://dx.doi.org/10.1039/C9TA13473E 2050-7488 https://hdl.handle.net/10356/154915 10.1039/C9TA13473E 7 8 3658 3666 en 2018-T2-01-010 NRF2016NRF-NRFI001-22 Journal of Materials Chemistry A © The Royal Society of Chemistry 2020. All rights reserved. |
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Engineering::Materials Metal-Organic-Frameworks Highly Efficient Li, Weixin Fang, Wei Wu, Chen Dinh, Khang Ngoc Ren, Hao Zhao, Lei Liu, Chuntai Yan, Qingyu Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| description |
Metal-organic frameworks (MOFs) have emerged as promising electrocatalysts due to their controllability and diversity in functional species of metal centers and organic linkers. Herein, two-dimensional (2D) bimetal-MOFs (CoxFe-MOF) nanosheets with a thickness of similar to 10 nm are synthesized and employed for OER and NRR in alkaline medium. By regulating the composition of CoxFe-MOF, the optimized Co₃Fe-MOF can achieve an overpotential of 280 mV at a current density of 10 mA cm(⁻²) with a small Tafel slope of 38 mV dec(-1) in 1.0 M KOH electrolyte, outperforming the commercial RuO₂ (351 mV at 10 mA cm(-2), 99 mV dec(-1)). The enhanced OER performance can be attributed to the abundant active centers and the positive coupling effect between Co and Fe metal ions in the MOF. Additionally, the NRR performance of the obtained Co₃Fe-MOF is evaluated on glassy carbon electrode to achieve real NH₃ faradaic efficiencies (FE) and NH₃ yield rates. The Co₃Fe-MOF delivers a FE up to 25.64% with the corresponding NH₃ yield rate of 8.79 mu g h(-1) mg(cat)(-1) at -0.2 V versus the reversible hydrogen electrode (vs. RHE) in 0.1 M KOH electrolyte. The results indicate the potential application of 2D MOFs in NRR and provide the rational design of efficient electrocatalysts for coupling both OER and NRR in a full-cell configuration. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Li, Weixin Fang, Wei Wu, Chen Dinh, Khang Ngoc Ren, Hao Zhao, Lei Liu, Chuntai Yan, Qingyu |
| format |
Article |
| author |
Li, Weixin Fang, Wei Wu, Chen Dinh, Khang Ngoc Ren, Hao Zhao, Lei Liu, Chuntai Yan, Qingyu |
| author_sort |
Li, Weixin |
| title |
Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| title_short |
Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| title_full |
Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| title_fullStr |
Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| title_full_unstemmed |
Bimetal-MOF nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| title_sort |
bimetal-mof nanosheets as efficient bifunctional electrocatalysts for oxygen evolution and nitrogen reduction reaction |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/154915 |
| _version_ |
1722355336303607808 |