Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs
A good electrochemical performance of polymer electrolyte membranes (PEMs) is achieving high membrane selectivity, which is a result of low ethanol permeability and high proton conductivity. Reducing the thickness of PEMs is beneficial for high proton conductivity due to the short distance of proton...
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my.uniten.dspace-341362024-10-14T11:18:06Z Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs Zakaria Z. Kamarudin S.K. Osman S.H. Mohamad A.A. Salehmin M.N.I. 56167779200 6506009910 57221497713 35605414700 55628787200 Biomaterials Car/PVA-GO membrane Electrochemical performance Membrane stability Polymers Catalyst selectivity Ethanol Graphene Membranes Polyelectrolytes Proton exchange membrane fuel cells (PEMFC) Car/PVA-GO membrane Carrageenans Electrochemical membranes Electrochemical performance Graphene oxides Membrane selectivity Membrane stability Oxide membrane Performance stability Polymer electrolyte membranes Proton conductivity A good electrochemical performance of polymer electrolyte membranes (PEMs) is achieving high membrane selectivity, which is a result of low ethanol permeability and high proton conductivity. Reducing the thickness of PEMs is beneficial for high proton conductivity due to the short distance of proton diffusion. Unfortunately, it results in high ethanol permeability. Thus, achieving high membrane selectivity for good electrochemical performance by balancing the requirements of ethanol permeability and proton conductivity is a critical parameter of PEMs. In this paper, the thickness of the carrageenan/polyvinyl alcohol-graphene oxide membrane was varied from 15 ?m � 30 ?m to identify the optimum thickness for good electrochemical performance. With a 25 ?m membrane thickness, the highest membrane selectivity was performed at 1.609 � 104 S s cm?3, and maximum power density in passive direct ethanol fuel cells was achieved at 14.5 mW cm?2, using 2.0 mg cm?2 anode catalyst loading and 2 M ethanol concentration at 70 �C, respectively. Furthermore, this membrane has sustained electrochemical performance for 1000 h at 70 �C without degrading the membrane stability. � 2023 Elsevier B.V. Final 2024-10-14T03:18:06Z 2024-10-14T03:18:06Z 2023 Article 10.1016/j.matlet.2023.134613 2-s2.0-85160802493 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85160802493&doi=10.1016%2fj.matlet.2023.134613&partnerID=40&md5=fb4506138e1213d972557098cfd928db https://irepository.uniten.edu.my/handle/123456789/34136 347 134613 Elsevier B.V. Scopus |
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Biomaterials Car/PVA-GO membrane Electrochemical performance Membrane stability Polymers Catalyst selectivity Ethanol Graphene Membranes Polyelectrolytes Proton exchange membrane fuel cells (PEMFC) Car/PVA-GO membrane Carrageenans Electrochemical membranes Electrochemical performance Graphene oxides Membrane selectivity Membrane stability Oxide membrane Performance stability Polymer electrolyte membranes Proton conductivity |
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Biomaterials Car/PVA-GO membrane Electrochemical performance Membrane stability Polymers Catalyst selectivity Ethanol Graphene Membranes Polyelectrolytes Proton exchange membrane fuel cells (PEMFC) Car/PVA-GO membrane Carrageenans Electrochemical membranes Electrochemical performance Graphene oxides Membrane selectivity Membrane stability Oxide membrane Performance stability Polymer electrolyte membranes Proton conductivity Zakaria Z. Kamarudin S.K. Osman S.H. Mohamad A.A. Salehmin M.N.I. Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs |
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A good electrochemical performance of polymer electrolyte membranes (PEMs) is achieving high membrane selectivity, which is a result of low ethanol permeability and high proton conductivity. Reducing the thickness of PEMs is beneficial for high proton conductivity due to the short distance of proton diffusion. Unfortunately, it results in high ethanol permeability. Thus, achieving high membrane selectivity for good electrochemical performance by balancing the requirements of ethanol permeability and proton conductivity is a critical parameter of PEMs. In this paper, the thickness of the carrageenan/polyvinyl alcohol-graphene oxide membrane was varied from 15 ?m � 30 ?m to identify the optimum thickness for good electrochemical performance. With a 25 ?m membrane thickness, the highest membrane selectivity was performed at 1.609 � 104 S s cm?3, and maximum power density in passive direct ethanol fuel cells was achieved at 14.5 mW cm?2, using 2.0 mg cm?2 anode catalyst loading and 2 M ethanol concentration at 70 �C, respectively. Furthermore, this membrane has sustained electrochemical performance for 1000 h at 70 �C without degrading the membrane stability. � 2023 Elsevier B.V. |
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56167779200 |
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56167779200 Zakaria Z. Kamarudin S.K. Osman S.H. Mohamad A.A. Salehmin M.N.I. |
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Zakaria Z. Kamarudin S.K. Osman S.H. Mohamad A.A. Salehmin M.N.I. |
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Zakaria Z. |
title |
Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs |
title_short |
Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs |
title_full |
Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs |
title_fullStr |
Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs |
title_full_unstemmed |
Enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive DEFCs |
title_sort |
enhancing electrochemical performance and membrane stability evaluation of carrageenan/polyvinyl alcohol-graphene oxide membrane in passive defcs |
publisher |
Elsevier B.V. |
publishDate |
2024 |
_version_ |
1814061043082592256 |
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13.222552 |