Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives
Clean energy technologies, such as proton-exchange membrane fuel cells (PEMFCs), have emerged as viable alternatives to fossil fuels to produce energy, which has the added benefit of reducing environmental footprints. However, their broad use has been impeded by the performance, durability, and effi...
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2025
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my.uniten.dspace-363552025-03-03T15:42:03Z Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives Wani A.A. Shaari N. Kamarudin S.K. Raduwan N.F. Yusoff Y.N. Khan A.M. Yousuf S. Ansari M.N.M. 57210150714 57190803462 6506009910 57201332506 57218340726 37096485900 57217865022 55489853600 Elastomers Ionomers Nafion membranes Polymeric membranes Alternative to fossil fuels Application progress Clean energy technology Critical review Energy Environmental footprints Fuel cell application Performance efficiency Polymer electrolyte membranes Proton-exchange membranes fuel cells Composite membranes Clean energy technologies, such as proton-exchange membrane fuel cells (PEMFCs), have emerged as viable alternatives to fossil fuels to produce energy, which has the added benefit of reducing environmental footprints. However, their broad use has been impeded by the performance, durability, and efficiency limitations of PEMFCs. A better knowledge of the compositions and architectures of PEMFCs may lead to enhancement in their durability and efficiency. The design, engineering, and well-architectured composite membranes retain water content in the polymer matrices and reduce the ohmic losses while operating at elevated temperatures. Researchers have been working on composite polymer electrolyte membranes (PEMs) in recent years to overcome the challenging issues currently faced in commercializing PEM technology. Achieving effective operations at higher working temperatures while retaining the physical and chemical characteristics of PEMs is one of the critical challenges. Herein, we outline the critical requirements for the composite membranes, molecular dynamic simulations, functional characteristics, and challenges that prevent the commercial application of PEMs for PEMFCs. More recent studies have focused on improving PEMs by composite material changes to address shortcomings in proton conductivity and stability. In this review, we delve into some of the latest innovations in PEMFC membranes, focusing on hybrid membranes that combine various inorganic, organic, and hybrid fillers with pristine polymeric membranes, such as Nafion, sulfonated polysulfone, polyaniline, polybenzimidazole, etc. This review also evaluates the fundamental steps utilized to develop novel sustainable composite membranes and how they stack up against current standards in PEM fuel cells. Furthermore, challenges to overcome in the advancement of PEMs toward real-world applications and future prospective research paths are also proposed. ? 2024 American Chemical Society. Final 2025-03-03T07:42:03Z 2025-03-03T07:42:03Z 2024 Review 10.1021/acs.energyfuels.4c02516 2-s2.0-85205897616 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85205897616&doi=10.1021%2facs.energyfuels.4c02516&partnerID=40&md5=6bfe29a0948cb1a09f28e774ac32e2a1 https://irepository.uniten.edu.my/handle/123456789/36355 38 19 18169 18193 American Chemical Society Scopus |
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Elastomers Ionomers Nafion membranes Polymeric membranes Alternative to fossil fuels Application progress Clean energy technology Critical review Energy Environmental footprints Fuel cell application Performance efficiency Polymer electrolyte membranes Proton-exchange membranes fuel cells Composite membranes |
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Elastomers Ionomers Nafion membranes Polymeric membranes Alternative to fossil fuels Application progress Clean energy technology Critical review Energy Environmental footprints Fuel cell application Performance efficiency Polymer electrolyte membranes Proton-exchange membranes fuel cells Composite membranes Wani A.A. Shaari N. Kamarudin S.K. Raduwan N.F. Yusoff Y.N. Khan A.M. Yousuf S. Ansari M.N.M. Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives |
| description |
Clean energy technologies, such as proton-exchange membrane fuel cells (PEMFCs), have emerged as viable alternatives to fossil fuels to produce energy, which has the added benefit of reducing environmental footprints. However, their broad use has been impeded by the performance, durability, and efficiency limitations of PEMFCs. A better knowledge of the compositions and architectures of PEMFCs may lead to enhancement in their durability and efficiency. The design, engineering, and well-architectured composite membranes retain water content in the polymer matrices and reduce the ohmic losses while operating at elevated temperatures. Researchers have been working on composite polymer electrolyte membranes (PEMs) in recent years to overcome the challenging issues currently faced in commercializing PEM technology. Achieving effective operations at higher working temperatures while retaining the physical and chemical characteristics of PEMs is one of the critical challenges. Herein, we outline the critical requirements for the composite membranes, molecular dynamic simulations, functional characteristics, and challenges that prevent the commercial application of PEMs for PEMFCs. More recent studies have focused on improving PEMs by composite material changes to address shortcomings in proton conductivity and stability. In this review, we delve into some of the latest innovations in PEMFC membranes, focusing on hybrid membranes that combine various inorganic, organic, and hybrid fillers with pristine polymeric membranes, such as Nafion, sulfonated polysulfone, polyaniline, polybenzimidazole, etc. This review also evaluates the fundamental steps utilized to develop novel sustainable composite membranes and how they stack up against current standards in PEM fuel cells. Furthermore, challenges to overcome in the advancement of PEMs toward real-world applications and future prospective research paths are also proposed. ? 2024 American Chemical Society. |
| author2 |
57210150714 |
| author_facet |
57210150714 Wani A.A. Shaari N. Kamarudin S.K. Raduwan N.F. Yusoff Y.N. Khan A.M. Yousuf S. Ansari M.N.M. |
| format |
Review |
| author |
Wani A.A. Shaari N. Kamarudin S.K. Raduwan N.F. Yusoff Y.N. Khan A.M. Yousuf S. Ansari M.N.M. |
| author_sort |
Wani A.A. |
| title |
Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives |
| title_short |
Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives |
| title_full |
Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives |
| title_fullStr |
Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives |
| title_full_unstemmed |
Critical Review on Composite-Based Polymer Electrolyte Membranes toward Fuel Cell Applications: Progress and Perspectives |
| title_sort |
critical review on composite-based polymer electrolyte membranes toward fuel cell applications: progress and perspectives |
| publisher |
American Chemical Society |
| publishDate |
2025 |
| _version_ |
1825816060160376832 |
| score |
13.244413 |