Two-dimensional palladium diselenide for the oxygen reduction reaction
The emerging two-dimensional (2D) materials, particularly 2D transition metal dichalcogenides (TMDs), show great potential for catalysis due to their extraordinary large surface areas and tuneable activities. However, the as-synthesized TMDs are usually chemically inert because of their perfect atom...
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sg-ntu-dr.10356-1531632023-03-04T17:25:32Z Two-dimensional palladium diselenide for the oxygen reduction reaction Koh, See Wee Hu, Jie Hwang, Jeemin Yu, Peng Sun, Zixu Liu, Qiunan Hong, Wei Ge, Junyu Fei, Jipeng Han, Byungchan Liu, Zheng Li, Hong School of Mechanical and Aerospace Engineering School of Materials Science and Engineering CNRS International NTU THALES Research Alliances Centre for Micro-/Nano-electronics (NOVITAS) Engineering::Chemical engineering Two-dimensional Catalyst Palladium Diselenide The emerging two-dimensional (2D) materials, particularly 2D transition metal dichalcogenides (TMDs), show great potential for catalysis due to their extraordinary large surface areas and tuneable activities. However, the as-synthesized TMDs are usually chemically inert because of their perfect atomic structure and inaccessible interlayer space for electrolytes. Herein, we activate 2D palladium diselenide (PdSe2) for catalysing the oxygen reduction reaction using a controllable electrochemical intercalation process. The electrochemically activated PdSe2 exhibits greatly enhanced electrocatalytic activities such as a doubled current density, 250 mV positive shift of potential, 5 times smaller Tafel slope, and greatly improved stability. DFT calculations were employed to study the mechanisms of electrochemical activation. Complementary experimental and theoretical studies suggest that the significantly increased activities come from (1) the activated surface with enriched Se vacancies and chemically bonded oxygen, and (2) easy access of the interlayer space for reaction intermediates. Furthermore, the robustness of the Pd-Se bonding ensures high structural stability and excellent resistance to degradation. Ministry of Education (MOE) Nanyang Technological University Accepted version This work was supported by the Nanyang Technological University under NAP award (M408050000) and Singapore Ministry of Education Tier 1 program (2018-T1-001-051). J. H. is grateful for financial support from the National Natural Science Foundation of China (No. 51771165 and 51925105), and the Natural Science Foundation of Hebei Province (No. E2020203123). B. H. acknowledges the support from the Global Frontier Program through the Global Frontier Hybrid Interface Materials (GFHIM) of the NRF funded by the Ministry of Science and ICT (Project No. 2013M3A6B1078882). 2021-11-12T05:49:58Z 2021-11-12T05:49:58Z 2021 Journal Article Koh, S. W., Hu, J., Hwang, J., Yu, P., Sun, Z., Liu, Q., Hong, W., Ge, J., Fei, J., Han, B., Liu, Z. & Li, H. (2021). Two-dimensional palladium diselenide for the oxygen reduction reaction. Materials Chemistry Frontiers, 5(13), 4970-4980. https://dx.doi.org/10.1039/d0qm01113d 2052-1537 https://hdl.handle.net/10356/153163 10.1039/d0qm01113d 2-s2.0-85108947318 13 5 4970 4980 en M408050000 2018-T1-001-051 Materials Chemistry Frontiers © 2021 The Royal Society of Chemistry and the Chinese Chemical Society. All rights reserved. This paper was published in Materials Chemistry Frontiers and is made available with permission of The Royal Society of Chemistry and the Chinese Chemical Society. application/pdf |
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Engineering::Chemical engineering Two-dimensional Catalyst Palladium Diselenide |
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Engineering::Chemical engineering Two-dimensional Catalyst Palladium Diselenide Koh, See Wee Hu, Jie Hwang, Jeemin Yu, Peng Sun, Zixu Liu, Qiunan Hong, Wei Ge, Junyu Fei, Jipeng Han, Byungchan Liu, Zheng Li, Hong Two-dimensional palladium diselenide for the oxygen reduction reaction |
| description |
The emerging two-dimensional (2D) materials, particularly 2D transition metal dichalcogenides (TMDs), show great potential for catalysis due to their extraordinary large surface areas and tuneable activities. However, the as-synthesized TMDs are usually chemically inert because of their perfect atomic structure and inaccessible interlayer space for electrolytes. Herein, we activate 2D palladium diselenide (PdSe2) for catalysing the oxygen reduction reaction using a controllable electrochemical intercalation process. The electrochemically activated PdSe2 exhibits greatly enhanced electrocatalytic activities such as a doubled current density, 250 mV positive shift of potential, 5 times smaller Tafel slope, and greatly improved stability. DFT calculations were employed to study the mechanisms of electrochemical activation. Complementary experimental and theoretical studies suggest that the significantly increased activities come from (1) the activated surface with enriched Se vacancies and chemically bonded oxygen, and (2) easy access of the interlayer space for reaction intermediates. Furthermore, the robustness of the Pd-Se bonding ensures high structural stability and excellent resistance to degradation. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Koh, See Wee Hu, Jie Hwang, Jeemin Yu, Peng Sun, Zixu Liu, Qiunan Hong, Wei Ge, Junyu Fei, Jipeng Han, Byungchan Liu, Zheng Li, Hong |
| format |
Article |
| author |
Koh, See Wee Hu, Jie Hwang, Jeemin Yu, Peng Sun, Zixu Liu, Qiunan Hong, Wei Ge, Junyu Fei, Jipeng Han, Byungchan Liu, Zheng Li, Hong |
| author_sort |
Koh, See Wee |
| title |
Two-dimensional palladium diselenide for the oxygen reduction reaction |
| title_short |
Two-dimensional palladium diselenide for the oxygen reduction reaction |
| title_full |
Two-dimensional palladium diselenide for the oxygen reduction reaction |
| title_fullStr |
Two-dimensional palladium diselenide for the oxygen reduction reaction |
| title_full_unstemmed |
Two-dimensional palladium diselenide for the oxygen reduction reaction |
| title_sort |
two-dimensional palladium diselenide for the oxygen reduction reaction |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/153163 |
| _version_ |
1759857286915817472 |