Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries
Exploring highly efficient bifunctional oxygen electrocatalysts are important for realising high performance rechargeable zinc-air batteries. The objective of this project was to develop a novel approach for the synthesis of bifunctional electrocatalysts, where Co3O4/Co metal compound are encapsulat...
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sg-ntu-dr.10356-1477092023-03-04T15:45:29Z Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries Ang, Wei Jin Lu Xuehong School of Materials Science and Engineering ASXHLu@ntu.edu.sg Engineering::Materials::Energy materials Engineering::Materials::Nanostructured materials Exploring highly efficient bifunctional oxygen electrocatalysts are important for realising high performance rechargeable zinc-air batteries. The objective of this project was to develop a novel approach for the synthesis of bifunctional electrocatalysts, where Co3O4/Co metal compound are encapsulated in the nitrogen-doped porous carbon fibres (Co3O4/Co on N-PCFs). Next, materials characterization and electrochemical measurements were performed against reference Pt or RuO2 catalysts. Benefiting from its strong synergetic coupling between Co3O4/Co compound and N-doped carbon species, and their hierarchically porous structures, the as-prepared Co3O4/Co@N-PCFs electrocatalyst demonstrate a half-wave potential of 0.838 V for ORR and a kinetic current density (Jk) of 29.322 mA cm−2, which is 4.40 times that of commercial Pt/C (6.657 mA cm−2) at 0.80 V. However, with reasonable OER performance, it could still be improved to achieve more superior electrocatalytic performance for bifunctional electrocatalyst applications. As a demonstration, Co3O4/Co@N-PCFs electrocatalyst is used in the air cathode of a Zn-air battery, which shows superior discharge and charge performance, large power density of 109.3 mW cm−2, small discharge-charge voltage gap of 0.759 V and high voltaic efficiency of 61.3% under ambient conditions. The results of this work showcase the feasibility and designs of highly efficient and advanced bifunctional electrocatalysts to develop rechargeable Zn-air batteries that are likewise, highly efficient, cost-effective and having superior performance. Subsequently, the as-prepared electrocatalysts could still be improved by adding another transition metal or alloy, to achieve better electrocatalytic performance. In addition, utilizing the flexibility of the electrocatalysts would open a novel avenue to design the next generation of high-performance flexible Zn-Air batteries. Bachelor of Engineering (Materials Engineering) 2021-04-12T12:40:06Z 2021-04-12T12:40:06Z 2021 Final Year Project (FYP) Ang, W. J. (2021). Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/147709 https://hdl.handle.net/10356/147709 en application/pdf Nanyang Technological University |
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Engineering::Materials::Energy materials Engineering::Materials::Nanostructured materials Ang, Wei Jin Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
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Exploring highly efficient bifunctional oxygen electrocatalysts are important for realising high performance rechargeable zinc-air batteries. The objective of this project was to develop a novel approach for the synthesis of bifunctional electrocatalysts, where Co3O4/Co metal compound are encapsulated in the nitrogen-doped porous carbon fibres (Co3O4/Co on N-PCFs). Next, materials characterization and electrochemical measurements were performed against reference Pt or RuO2 catalysts.
Benefiting from its strong synergetic coupling between Co3O4/Co compound and N-doped carbon species, and their hierarchically porous structures, the as-prepared Co3O4/Co@N-PCFs electrocatalyst demonstrate a half-wave potential of 0.838 V for ORR and a kinetic current density (Jk) of 29.322 mA cm−2, which is 4.40 times that of commercial Pt/C (6.657 mA cm−2) at 0.80 V. However, with reasonable OER performance, it could still be improved to achieve more superior electrocatalytic performance for bifunctional electrocatalyst applications. As a demonstration, Co3O4/Co@N-PCFs electrocatalyst is used in the air cathode of a Zn-air battery, which shows superior discharge and charge performance, large power density of 109.3 mW cm−2, small discharge-charge voltage gap of 0.759 V and high voltaic efficiency of 61.3% under ambient conditions. The results of this work showcase the feasibility and designs of highly efficient and advanced bifunctional electrocatalysts to develop rechargeable Zn-air batteries that are likewise, highly efficient, cost-effective and having superior performance.
Subsequently, the as-prepared electrocatalysts could still be improved by adding another transition metal or alloy, to achieve better electrocatalytic performance. In addition, utilizing the flexibility of the electrocatalysts would open a novel avenue to design the next generation of high-performance flexible Zn-Air batteries. |
| author2 |
Lu Xuehong |
| author_facet |
Lu Xuehong Ang, Wei Jin |
| format |
Final Year Project |
| author |
Ang, Wei Jin |
| author_sort |
Ang, Wei Jin |
| title |
Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
| title_short |
Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
| title_full |
Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
| title_fullStr |
Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
| title_full_unstemmed |
Encapsulated Co3O4/Co on N-PCFs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
| title_sort |
encapsulated co3o4/co on n-pcfs as bifunctional electrocatalysts for rechargeable zinc-air batteries |
| publisher |
Nanyang Technological University |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/147709 |
| _version_ |
1759858103789027328 |