Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation
Cleaner, greener energy sources are of increasing demands due to the rapid worsening of the global climate. Fuel cells have long been considered a strong contender due to its promise of high efficiency and low cost. The research community has paid paramount attention to the development of fuel ce...
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sg-ntu-dr.10356-1461172023-03-11T17:59:06Z Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation Phan, Quoc Tuan Hirotaka Sato School of Mechanical and Aerospace Engineering hirosato@ntu.edu.sg Engineering::Materials::Nanostructured materials Cleaner, greener energy sources are of increasing demands due to the rapid worsening of the global climate. Fuel cells have long been considered a strong contender due to its promise of high efficiency and low cost. The research community has paid paramount attention to the development of fuel cells, a significant portion of which is on improving the catalysts, especially Pt. Among several approaches that have been employed to boost performance of Pt catalysts, amorphous structure is a promising direction. Amorphous structure houses a large amount of lattice defects which contains a plethora of uncoordinated active sites, which have been reported to boost catalytic activity. However, the most common approach to create amorphous structure by alloying with transition metals such as Ni has limitations. Firstly, transition metals are unstable in the working condition of fuel cells. Second, the dissolved metal ions can cause damage to the Nafion membrane of the fuel cell. Induce amorphous structure using non-metals can solve these problems. This strategy has been successfully employed on various metals like Ni, Co, Pd via P-doping. In this thesis, a facile synthesis of transition metal-free amorphous Pt-P nanocatalyst via P-doping was developed. Amorphous structure was induced by lattice strains caused by phosphorus doping at high concentration. The resulting Pt-P nanocatalysts yielded superior catalytic activity compared to commercial PtRu/C for methanol oxidation reaction in both alkaline and acidic conditions. It was also more durable in short-term and long-term chronoamperometry tests than PtRu/C. There is potential of further applications for the synthesized amorphous Pt-P nanocatalysts. Master of Engineering 2021-01-27T01:53:18Z 2021-01-27T01:53:18Z 2020 Thesis-Master by Research Phan, Q. T. (2020). Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation. Master's thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/146117 10.32657/10356/146117 en MOE2017-T2-2-067 NGF-2018-05-017 This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0). application/pdf Nanyang Technological University |
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Engineering::Materials::Nanostructured materials Phan, Quoc Tuan Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| description |
Cleaner, greener energy sources are of increasing demands due to the rapid worsening
of the global climate. Fuel cells have long been considered a strong contender due to its
promise of high efficiency and low cost. The research community has paid paramount
attention to the development of fuel cells, a significant portion of which is on improving
the catalysts, especially Pt. Among several approaches that have been employed to boost
performance of Pt catalysts, amorphous structure is a promising direction. Amorphous
structure houses a large amount of lattice defects which contains a plethora of
uncoordinated active sites, which have been reported to boost catalytic activity.
However, the most common approach to create amorphous structure by alloying with
transition metals such as Ni has limitations. Firstly, transition metals are unstable in the
working condition of fuel cells. Second, the dissolved metal ions can cause damage to
the Nafion membrane of the fuel cell. Induce amorphous structure using non-metals can
solve these problems. This strategy has been successfully employed on various metals
like Ni, Co, Pd via P-doping.
In this thesis, a facile synthesis of transition metal-free amorphous Pt-P nanocatalyst
via P-doping was developed. Amorphous structure was induced by lattice strains
caused by phosphorus doping at high concentration. The resulting Pt-P nanocatalysts
yielded superior catalytic activity compared to commercial PtRu/C for methanol
oxidation reaction in both alkaline and acidic conditions. It was also more durable in
short-term and long-term chronoamperometry tests than PtRu/C. There is potential of
further applications for the synthesized amorphous Pt-P nanocatalysts. |
| author2 |
Hirotaka Sato |
| author_facet |
Hirotaka Sato Phan, Quoc Tuan |
| format |
Thesis-Master by Research |
| author |
Phan, Quoc Tuan |
| author_sort |
Phan, Quoc Tuan |
| title |
Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| title_short |
Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| title_full |
Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| title_fullStr |
Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| title_full_unstemmed |
Synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| title_sort |
synthesis of highly active amorphous platinum-based catalysts for methanol electrooxidation |
| publisher |
Nanyang Technological University |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/146117 |
| _version_ |
1761781788838985728 |