Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation
Optimizing structure and composition with respect to electrocatalytic performance is critical to achieve outstanding Pd-based electrocatalysts. Herein, we have successfully developed a novel electrocatalyst of hollow and porous PdRh nanobowls (PdRh NBs) for the ethanol oxidation reaction (EOR) by us...
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sg-ntu-dr.10356-1515052021-07-09T05:16:00Z Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation Li, Zhijuan Chen, Yifan Fu, Gengtao Chen, Yang Sun, Dongmei Lee, Jong-Min Tang, Yawen School of Chemical and Biomedical Engineering Engineering::Chemical engineering Bubble Template Synthesis Methanol Oxidation Optimizing structure and composition with respect to electrocatalytic performance is critical to achieve outstanding Pd-based electrocatalysts. Herein, we have successfully developed a novel electrocatalyst of hollow and porous PdRh nanobowls (PdRh NBs) for the ethanol oxidation reaction (EOR) by using urea as a guiding surfactant. Under alkaline hydrothermal conditions, urea molecules can release bubbles (NH₃ and CO₂) that in turn guide the formation of PdRh nanobowls. The porous bowl-like structures of PdRh NBs expose abundant surface sites, which allows for increased collision frequency via confining reactants within open spaces. In regards to composition, the reason for introducing Rh is that not only is the redox potential of Rh approximate with that of Pd (beneficial to the formation of high PdRh alloy phase), but also it can effectively facilitate the breakage of C–C bond on the electrode surface (enhancing the total oxidation of ethanol to CO₂). Benefiting from the compositional and structural advantages, the newly developed PdRh NBs exhibit significantly improved electrocatalytic activity for the EOR compared with those of the pure Pd NBs, PdRh nanoparticles (PdRh NPs) and commercial Pd black. These attributes might make them good anodic candidates for application in direct ethanol fuel cells. This study was financially supported by National Natural Science Foundation of China (NSFC No. 21875112 and 21576139), National and Local Joint Engineering Research Center of Biomedical Functional Materials and Priority Academic Program Development of Jiangsu Higher Education Institutions. Postgraduate Research & Practice Innovation Program of Jiangsu Province (KYCX18+-1192). Y. F. Chen thanks China Scholarship Council (Grant No. 201806860028) for the award of a fellowship. 2021-07-09T05:16:00Z 2021-07-09T05:16:00Z 2019 Journal Article Li, Z., Chen, Y., Fu, G., Chen, Y., Sun, D., Lee, J. & Tang, Y. (2019). Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation. Nanoscale, 11(6), 2974-2980. https://dx.doi.org/10.1039/C8NR09482A 2040-3364 https://hdl.handle.net/10356/151505 10.1039/C8NR09482A 6 11 2974 2980 en Nanoscale © 2019 The Royal Society of Chemistry. All rights reserved. |
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Engineering::Chemical engineering Bubble Template Synthesis Methanol Oxidation Li, Zhijuan Chen, Yifan Fu, Gengtao Chen, Yang Sun, Dongmei Lee, Jong-Min Tang, Yawen Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| description |
Optimizing structure and composition with respect to electrocatalytic performance is critical to achieve outstanding Pd-based electrocatalysts. Herein, we have successfully developed a novel electrocatalyst of hollow and porous PdRh nanobowls (PdRh NBs) for the ethanol oxidation reaction (EOR) by using urea as a guiding surfactant. Under alkaline hydrothermal conditions, urea molecules can release bubbles (NH₃ and CO₂) that in turn guide the formation of PdRh nanobowls. The porous bowl-like structures of PdRh NBs expose abundant surface sites, which allows for increased collision frequency via confining reactants within open spaces. In regards to composition, the reason for introducing Rh is that not only is the redox potential of Rh approximate with that of Pd (beneficial to the formation of high PdRh alloy phase), but also it can effectively facilitate the breakage of C–C bond on the electrode surface (enhancing the total oxidation of ethanol to CO₂). Benefiting from the compositional and structural advantages, the newly developed PdRh NBs exhibit significantly improved electrocatalytic activity for the EOR compared with those of the pure Pd NBs, PdRh nanoparticles (PdRh NPs) and commercial Pd black. These attributes might make them good anodic candidates for application in direct ethanol fuel cells. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Li, Zhijuan Chen, Yifan Fu, Gengtao Chen, Yang Sun, Dongmei Lee, Jong-Min Tang, Yawen |
| format |
Article |
| author |
Li, Zhijuan Chen, Yifan Fu, Gengtao Chen, Yang Sun, Dongmei Lee, Jong-Min Tang, Yawen |
| author_sort |
Li, Zhijuan |
| title |
Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| title_short |
Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| title_full |
Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| title_fullStr |
Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| title_full_unstemmed |
Porous PdRh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| title_sort |
porous pdrh nanobowls : facile synthesis and activity for alkaline ethanol oxidation |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151505 |
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1705151285637939200 |