Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts
Molybdenum phosphide (MoP) is regarded as one of the most promising alternatives to noble-metal based electrocatalysts for efficient hydrogen evolution reaction (HER) due to its similar d-band electronic structure to noble metals and tunable features associated with phase and composition. However, i...
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sg-ntu-dr.10356-1602432022-07-18T04:43:49Z Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts Zhang, Luyao Hu, Minghao Li, Huan Cao, Bo Jing, Peng Liu, Baocang Gao, Rui Zhang, Jun Liu, Bin School of Chemical and Biomedical Engineering School of Physical and Mathematical Sciences Science::Chemistry Electronic Coupling Hydrogen Evolution Reaction Molybdenum phosphide (MoP) is regarded as one of the most promising alternatives to noble-metal based electrocatalysts for efficient hydrogen evolution reaction (HER) due to its similar d-band electronic structure to noble metals and tunable features associated with phase and composition. However, it still remains a great challenge to construct MoP electrocatalysts with abundant active sites that possess ideal H binding strength to promote catalytic performance. In this work, it is found that by anchoring a rare earth compound, cerium phosphate (CePO4 ) on MoP (CePO4 /MoP), the stabilized Ce3+ in CePO4 can significantly boost the formation of oxygen vacancies in ceria (CeO2 ) in situ formed on CePO4 surface during HER, which effectively regulates the d-band electronic density-of-states of MoP, increases the numbers of active sites, and promotes the vectorial electron transfer, therefore greatly enhancing the HER performance of MoP. The optimized CePO4 /MoP/carbon cloth (CC) electrocatalyst exhibits a significantly improved HER performance with an overpotential of 48 mV at 10 mA cm-2 and a Tafel slope of 38 mV dec-1 , about two times better than the HER performance of MoP catalyst without CePO4 (with an overpotential >80 mV dec-1 at 10 mA cm-2 ), very close to commercial Pt/C catalyst. Ministry of Education (MOE) This study was supported by grants from the National Natural Science Foundation of China (21971129, 21961022, 21661023, 21802076, and 21962013), the 111 Project (D20033), the Natural Science Foundation of Inner Mongolia Autonomous Region of China (2018BS05007), the Program of Higherlevel Talents of IMU (21300-5185111 and 21300-5195109), and the Cooperation Project of the State Key Laboratory of Baiyun Obo Rare Earth Resource Research and Comprehensive Utilization (2017Z1950), and the Singapore Ministry of Education (Tier 1: RG4/20 and Tier 2: MOET2EP10120-0002). 2022-07-18T04:43:49Z 2022-07-18T04:43:49Z 2021 Journal Article Zhang, L., Hu, M., Li, H., Cao, B., Jing, P., Liu, B., Gao, R., Zhang, J. & Liu, B. (2021). Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts. Small, 17(40), 2102413-. https://dx.doi.org/10.1002/smll.202102413 1613-6810 https://hdl.handle.net/10356/160243 10.1002/smll.202102413 34494360 2-s2.0-85114357797 40 17 2102413 en RG4/20 MOET2EP10120-0002 Small © 2021 Wiley-VCH GmbH. All rights reserved. |
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Science::Chemistry Electronic Coupling Hydrogen Evolution Reaction Zhang, Luyao Hu, Minghao Li, Huan Cao, Bo Jing, Peng Liu, Baocang Gao, Rui Zhang, Jun Liu, Bin Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| description |
Molybdenum phosphide (MoP) is regarded as one of the most promising alternatives to noble-metal based electrocatalysts for efficient hydrogen evolution reaction (HER) due to its similar d-band electronic structure to noble metals and tunable features associated with phase and composition. However, it still remains a great challenge to construct MoP electrocatalysts with abundant active sites that possess ideal H binding strength to promote catalytic performance. In this work, it is found that by anchoring a rare earth compound, cerium phosphate (CePO4 ) on MoP (CePO4 /MoP), the stabilized Ce3+ in CePO4 can significantly boost the formation of oxygen vacancies in ceria (CeO2 ) in situ formed on CePO4 surface during HER, which effectively regulates the d-band electronic density-of-states of MoP, increases the numbers of active sites, and promotes the vectorial electron transfer, therefore greatly enhancing the HER performance of MoP. The optimized CePO4 /MoP/carbon cloth (CC) electrocatalyst exhibits a significantly improved HER performance with an overpotential of 48 mV at 10 mA cm-2 and a Tafel slope of 38 mV dec-1 , about two times better than the HER performance of MoP catalyst without CePO4 (with an overpotential >80 mV dec-1 at 10 mA cm-2 ), very close to commercial Pt/C catalyst. |
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School of Chemical and Biomedical Engineering |
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School of Chemical and Biomedical Engineering Zhang, Luyao Hu, Minghao Li, Huan Cao, Bo Jing, Peng Liu, Baocang Gao, Rui Zhang, Jun Liu, Bin |
| format |
Article |
| author |
Zhang, Luyao Hu, Minghao Li, Huan Cao, Bo Jing, Peng Liu, Baocang Gao, Rui Zhang, Jun Liu, Bin |
| author_sort |
Zhang, Luyao |
| title |
Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| title_short |
Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| title_full |
Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| title_fullStr |
Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| title_full_unstemmed |
Boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| title_sort |
boosting hydrogen evolution reaction via electronic coupling of cerium phosphate with molybdenum phosphide nanobelts |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/160243 |
| _version_ |
1738844956247719936 |