Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes
The electroreduction of nitrate to ammonia via a selective eight-electron transfer nitrate reduction reaction offers a promising, low energy consumption, pollution-free, green NH3 synthesis strategy alternative to the Haber-Bosch method. However, it remains a great challenge to achieve high NH4+ sel...
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sg-ntu-dr.10356-1809272024-11-05T02:39:04Z Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes Huang, Wenjing Luo, Wenyu Liu, Jiawei Jia, Bei-Er Lee, Carmen Dong, Jinfeng Yang, Lan Liu, Bin Yan, Qingyu School of Materials Science and Engineering Engineering Ammonia synthesis Cascade electrocatalysis The electroreduction of nitrate to ammonia via a selective eight-electron transfer nitrate reduction reaction offers a promising, low energy consumption, pollution-free, green NH3 synthesis strategy alternative to the Haber-Bosch method. However, it remains a great challenge to achieve high NH4+ selectivity and complete conversion from NO3--N to NH4+-N. Herein, we report ingredients adjustable Cu2O@CoO yolk-shell nanocubes featured with tunable inner void spaces and diverse activity centers, favoring the rapid cascade conversion of NO3- into NO2- on Cu2O and NO2- into NH4+ on CoO. Cu2O@CoO yolk-shell nanocubes exhibit super NH4+ Faradaic efficiencies (>99%) over a wide potential window (-0.2 V to -0.9 V versus RHE) with a considerable NH4+ yield rate of 15.27 mg h-1 cm-2 and fantastic cycling stability and long-term chronoamperometric durability. Cu2O@CoO yolk-shell nanocubes exhibited glorious NO3--N to NH4+-N conversion efficiency in both dilute (500 ppm) and highly concentrated (0.1 and 1 M) NO3- electrolytes, respectively. The nitrate electrolysis membrane electrode assembly system equipped with Cu2O@CoO yolk-shell nanocubes delivers over 99.8% NH4+ Faradaic efficiency at cell voltages of 1.9-2.3 V. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) The authors acknowledge funding support from Singapore MOE AcRF Tier 1 grant RT6/22, MTC programmatic fund (grant no. 23L9b0052) from A*STAR, City University of Hong Kong startup fund (9020003), ITF−RTH Global STEM Professorship (9446006), and Singapore A*STAR, Low Carbon Energy Research (LCER) Phase 2: Directed Hydrogen Programme: award number U2305D4001. 2024-11-05T02:39:04Z 2024-11-05T02:39:04Z 2024 Journal Article Huang, W., Luo, W., Liu, J., Jia, B., Lee, C., Dong, J., Yang, L., Liu, B. & Yan, Q. (2024). Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes. ACS Nano, 18(31), 20258-20267. https://dx.doi.org/10.1021/acsnano.4c03995 1936-0851 https://hdl.handle.net/10356/180927 10.1021/acsnano.4c03995 39069739 2-s2.0-85199759562 31 18 20258 20267 en RT6/22 23L9b005 U2305D4001 ACS Nano © 2024 American Chemical Society. All rights reserved. |
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Engineering Ammonia synthesis Cascade electrocatalysis |
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Engineering Ammonia synthesis Cascade electrocatalysis Huang, Wenjing Luo, Wenyu Liu, Jiawei Jia, Bei-Er Lee, Carmen Dong, Jinfeng Yang, Lan Liu, Bin Yan, Qingyu Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes |
| description |
The electroreduction of nitrate to ammonia via a selective eight-electron transfer nitrate reduction reaction offers a promising, low energy consumption, pollution-free, green NH3 synthesis strategy alternative to the Haber-Bosch method. However, it remains a great challenge to achieve high NH4+ selectivity and complete conversion from NO3--N to NH4+-N. Herein, we report ingredients adjustable Cu2O@CoO yolk-shell nanocubes featured with tunable inner void spaces and diverse activity centers, favoring the rapid cascade conversion of NO3- into NO2- on Cu2O and NO2- into NH4+ on CoO. Cu2O@CoO yolk-shell nanocubes exhibit super NH4+ Faradaic efficiencies (>99%) over a wide potential window (-0.2 V to -0.9 V versus RHE) with a considerable NH4+ yield rate of 15.27 mg h-1 cm-2 and fantastic cycling stability and long-term chronoamperometric durability. Cu2O@CoO yolk-shell nanocubes exhibited glorious NO3--N to NH4+-N conversion efficiency in both dilute (500 ppm) and highly concentrated (0.1 and 1 M) NO3- electrolytes, respectively. The nitrate electrolysis membrane electrode assembly system equipped with Cu2O@CoO yolk-shell nanocubes delivers over 99.8% NH4+ Faradaic efficiency at cell voltages of 1.9-2.3 V. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Huang, Wenjing Luo, Wenyu Liu, Jiawei Jia, Bei-Er Lee, Carmen Dong, Jinfeng Yang, Lan Liu, Bin Yan, Qingyu |
| format |
Article |
| author |
Huang, Wenjing Luo, Wenyu Liu, Jiawei Jia, Bei-Er Lee, Carmen Dong, Jinfeng Yang, Lan Liu, Bin Yan, Qingyu |
| author_sort |
Huang, Wenjing |
| title |
Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes |
| title_short |
Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes |
| title_full |
Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes |
| title_fullStr |
Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes |
| title_full_unstemmed |
Cascade electrocatalytic nitrate reduction reaching 100% nitrate-N to ammonia-N conversion over Cu2O@CoO yolk-shell nanocubes |
| title_sort |
cascade electrocatalytic nitrate reduction reaching 100% nitrate-n to ammonia-n conversion over cu2o@coo yolk-shell nanocubes |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180927 |
| _version_ |
1816858979852091392 |