Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis
Pd-based alloy catalysts have been extensively investigated as the anodic and cathodic catalysts of direct formic acid fuel cells (DFAFCs) by virtue of their unique synergistic effect, good stability and relatively low cost compared with Pt-based alloy catalysts. Controlling the structure and morpho...
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sg-ntu-dr.10356-1516182021-07-09T05:49:16Z Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis Jiang, Xian Xiong, Yuexin Wang, Yufei Wang, Jiaxin Li, Naixu Zhou, Jiancheng Fu, Gengtao Sun, Dongmei Tang, Yawen School of Chemical and Biomedical Engineering Engineering::Chemical engineering Oxygen Reduction Reaction One-pot Synthesis Pd-based alloy catalysts have been extensively investigated as the anodic and cathodic catalysts of direct formic acid fuel cells (DFAFCs) by virtue of their unique synergistic effect, good stability and relatively low cost compared with Pt-based alloy catalysts. Controlling the structure and morphology of nanocatalysts is of great significance to tune and boost their electrocatalytic performance. Herein, we propose a simple, rapid and green approach to fabricate tree-like PdAg nanocrystals with tunable chemical composition (PdₓAgᵧ NTs) via mixing the metal precursors and 1-naphthol, and then aging for a mere 30 min at 60 °C. The obtained PdₓAgᵧ NTs feature a two-level structure of tiny Pd₁Ag₃ alloy nanodendrites and Pd₁Ag₂ alloy nanobranches with abundant active sites and enhanced structural stability. The formation mechanism of PdₓAgᵧ NTs has been investigated well via a series of control experiments, which is just like the germination and growth of a tree. To the best of our knowledge, treelike two-level PdₓAgᵧ nanostructures have never been reported before. Electrochemical measurements demonstrate that the Pd₃Ag₁ NTs outperform commercial Pd black and other compositional Pd₁Ag₁ and Pd₁Ag₃ NTs in the aspects of bifunctional activity and stability towards the anodic formic acid oxidation and cathodic oxygen reduction of the DFAFCs. This work was financially supported by the National Natural Science Foundation of China (21576139, 21875112, 21576050 and 51602052), Jiangsu Provincial Natural Science Foundation of China (BK20150604), Postgraduate Research & Practice Innovation Program of Jiangsu Province (KYCX18_0133), National and Local Joint Engineering Research Center of Biomedical Functional Materials and Priority Academic Program Development of Jiangsu Higher Education Institutions. 2021-07-09T05:49:16Z 2021-07-09T05:49:16Z 2019 Journal Article Jiang, X., Xiong, Y., Wang, Y., Wang, J., Li, N., Zhou, J., Fu, G., Sun, D. & Tang, Y. (2019). Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis. Journal of Materials Chemistry A, 7(10), 5248-5257. https://dx.doi.org/10.1039/c8ta11538a 2050-7488 https://hdl.handle.net/10356/151618 10.1039/c8ta11538a 2-s2.0-85062633099 10 7 5248 5257 en Journal of Materials Chemistry A © 2019 The Royal Society of Chemistry. All rights reserved. |
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Engineering::Chemical engineering Oxygen Reduction Reaction One-pot Synthesis |
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Engineering::Chemical engineering Oxygen Reduction Reaction One-pot Synthesis Jiang, Xian Xiong, Yuexin Wang, Yufei Wang, Jiaxin Li, Naixu Zhou, Jiancheng Fu, Gengtao Sun, Dongmei Tang, Yawen Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
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Pd-based alloy catalysts have been extensively investigated as the anodic and cathodic catalysts of direct formic acid fuel cells (DFAFCs) by virtue of their unique synergistic effect, good stability and relatively low cost compared with Pt-based alloy catalysts. Controlling the structure and morphology of nanocatalysts is of great significance to tune and boost their electrocatalytic performance. Herein, we propose a simple, rapid and green approach to fabricate tree-like PdAg nanocrystals with tunable chemical composition (PdₓAgᵧ NTs) via mixing the metal precursors and 1-naphthol, and then aging for a mere 30 min at 60 °C. The obtained PdₓAgᵧ NTs feature a two-level structure of tiny Pd₁Ag₃ alloy nanodendrites and Pd₁Ag₂ alloy nanobranches with abundant active sites and enhanced structural stability. The formation mechanism of PdₓAgᵧ NTs has been investigated well via a series of control experiments, which is just like the germination and growth of a tree. To the best of our knowledge, treelike two-level PdₓAgᵧ nanostructures have never been reported before. Electrochemical measurements demonstrate that the Pd₃Ag₁ NTs outperform commercial Pd black and other compositional Pd₁Ag₁ and Pd₁Ag₃ NTs in the aspects of bifunctional activity and stability towards the anodic formic acid oxidation and cathodic oxygen reduction of the DFAFCs. |
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School of Chemical and Biomedical Engineering |
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School of Chemical and Biomedical Engineering Jiang, Xian Xiong, Yuexin Wang, Yufei Wang, Jiaxin Li, Naixu Zhou, Jiancheng Fu, Gengtao Sun, Dongmei Tang, Yawen |
| format |
Article |
| author |
Jiang, Xian Xiong, Yuexin Wang, Yufei Wang, Jiaxin Li, Naixu Zhou, Jiancheng Fu, Gengtao Sun, Dongmei Tang, Yawen |
| author_sort |
Jiang, Xian |
| title |
Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
| title_short |
Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
| title_full |
Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
| title_fullStr |
Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
| title_full_unstemmed |
Treelike two-level PdₓAgᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
| title_sort |
treelike two-level pdₓagᵧ nanocrystals tailored for bifunctional fuel cell electrocatalysis |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151618 |
| _version_ |
1705151326187421696 |