Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells
Carbon-supported metal nanoparticles are widely used as electrocatalysts in polymer electrolyte membrane fuel cells (PEMFCs), but still suffer from deactivation because of metal leaching and sintering at high temperature. Herein, we propose a novel and scalable metal coordination-polymer strategy fo...
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sg-ntu-dr.10356-1522002021-08-06T01:26:35Z Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells Jiang, Xian Elouarzaki, Kamal Tang, Yawen Zhou, Jiancheng Fu, Gengtao Lee, Jong-Min School of Chemical and Biomedical Engineering Cambridge CARES Engineering::Chemical engineering 1-Naphthylamine Metal Coordination-polymer Carbon-supported metal nanoparticles are widely used as electrocatalysts in polymer electrolyte membrane fuel cells (PEMFCs), but still suffer from deactivation because of metal leaching and sintering at high temperature. Herein, we propose a novel and scalable metal coordination-polymer strategy for the facile synthesis of bimetallic PdFe nanoparticles embedded nitrogen-doped carbon (PdFe@N-C) nanoframes as a Mott-Schottky electrocatalyst to efficiently catalyze the oxygen reduction reaction (ORR) in PEMFCs. The metal coordination-polymer is formed through metal ions (Pd and Fe) mediated self-polymerization of 1-naphthylamine (NA), which allows alloy nanoparticles to bind tightly with N-carbon nanoframes after pyrolysis. It is found that PdFe nanoparticles with very small particle-size are uniformly embedded in the porous N-carbon nanoframes and physically separated from each other by the carbon matrix. Profited from the unique structure and composition merits, the half-wave potential of the developed PdFe@N-C nanoframes towards ORR is positively shifted by 30 and 50 mV compared to those of Pd@N-C and Pd/C, respectively. Importantly, the PdFe@N-C nanoframes derived acidic PEMFC delivers a high-power density of 0.91 W cm⁻² together with remarkable operational stability after 10 h discharging. Such good performances make the metal-NA coordination-polymer an attractive precursor to design and synthesize high-performance electrocatalysts for fuel cells. Ministry of Education (MOE) National Research Foundation (NRF) This work was mainly supported by the AcRF Tier 1 grant (RG105/19) from Ministry of Education and the National Research Foundation (NRF), Prime Minister’s Office, Singapore under its Campus for Research Excellence and Technological Enterprise (CREATE) program in Singapore; and Natural Science Foundation of China (21875112). 2021-08-06T01:26:34Z 2021-08-06T01:26:34Z 2020 Journal Article Jiang, X., Elouarzaki, K., Tang, Y., Zhou, J., Fu, G. & Lee, J. (2020). Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells. Carbon, 164, 369-377. https://dx.doi.org/10.1016/j.carbon.2020.04.013 0008-6223 https://hdl.handle.net/10356/152200 10.1016/j.carbon.2020.04.013 2-s2.0-85083355768 164 369 377 en RG105/19 Carbon © 2020 Elsevier Ltd. All rights reserved. |
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Engineering::Chemical engineering 1-Naphthylamine Metal Coordination-polymer Jiang, Xian Elouarzaki, Kamal Tang, Yawen Zhou, Jiancheng Fu, Gengtao Lee, Jong-Min Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells |
| description |
Carbon-supported metal nanoparticles are widely used as electrocatalysts in polymer electrolyte membrane fuel cells (PEMFCs), but still suffer from deactivation because of metal leaching and sintering at high temperature. Herein, we propose a novel and scalable metal coordination-polymer strategy for the facile synthesis of bimetallic PdFe nanoparticles embedded nitrogen-doped carbon (PdFe@N-C) nanoframes as a Mott-Schottky electrocatalyst to efficiently catalyze the oxygen reduction reaction (ORR) in PEMFCs. The metal coordination-polymer is formed through metal ions (Pd and Fe) mediated self-polymerization of 1-naphthylamine (NA), which allows alloy nanoparticles to bind tightly with N-carbon nanoframes after pyrolysis. It is found that PdFe nanoparticles with very small particle-size are uniformly embedded in the porous N-carbon nanoframes and physically separated from each other by the carbon matrix. Profited from the unique structure and composition merits, the half-wave potential of the developed PdFe@N-C nanoframes towards ORR is positively shifted by 30 and 50 mV compared to those of Pd@N-C and Pd/C, respectively. Importantly, the PdFe@N-C nanoframes derived acidic PEMFC delivers a high-power density of 0.91 W cm⁻² together with remarkable operational stability after 10 h discharging. Such good performances make the metal-NA coordination-polymer an attractive precursor to design and synthesize high-performance electrocatalysts for fuel cells. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Jiang, Xian Elouarzaki, Kamal Tang, Yawen Zhou, Jiancheng Fu, Gengtao Lee, Jong-Min |
| format |
Article |
| author |
Jiang, Xian Elouarzaki, Kamal Tang, Yawen Zhou, Jiancheng Fu, Gengtao Lee, Jong-Min |
| author_sort |
Jiang, Xian |
| title |
Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells |
| title_short |
Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells |
| title_full |
Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells |
| title_fullStr |
Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells |
| title_full_unstemmed |
Embedded PdFe@N-carbon nanoframes for oxygen reduction in acidic fuel cells |
| title_sort |
embedded pdfe@n-carbon nanoframes for oxygen reduction in acidic fuel cells |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/152200 |
| _version_ |
1707774589908549632 |