Lukman Ahmed Omeiza , Asset Kabyshev , Kenzhebatyr Bekmyrza , Kairat A. Kuterbekov , Marzhan Kubenova , Zhuldyz A. Zhumadilova , Yathavan Subramanian , Muhammed Ali , Nursultan Aidarbekov , Abul Kalam Azad
{"title":"固体氧化物燃料电池可持续电极材料开发的制约因素:简要回顾","authors":"Lukman Ahmed Omeiza , Asset Kabyshev , Kenzhebatyr Bekmyrza , Kairat A. Kuterbekov , Marzhan Kubenova , Zhuldyz A. Zhumadilova , Yathavan Subramanian , Muhammed Ali , Nursultan Aidarbekov , Abul Kalam Azad","doi":"10.1016/j.mset.2024.07.001","DOIUrl":null,"url":null,"abstract":"<div><p>Solid oxide fuel cells (SOFCs) are efficient electrochemical energy device that converts the chemical energy of fuels directly into electricity. It has a high power and energy density and a sustainable source of energy. The electrode (cathode and anode) materials are essential for the efficient operation of SOFCs. Several electrode materials have been studied in the last two decades, mainly perovskite materials. The investigated materials have resulted in improved electrochemical performance of SOFCs, increased commercial viability, and reduced operational costs. However, the sustainability of most of the material compositions (heteroatoms) used as electrodes in SOFCs has never been investigated. The present study examines the recent progress, challenges, and constraints associated with electrode material development in SOFCs from a sustainable perspective. Heteroatoms majorly employed for doping in electrode materials’ long-term availability on the earth’s surface was established. The study also provides an overview on the current state of electrode materials development for symmetrical solid oxide fuel cells. This is intended to address the complexities of different materials development for the anode and cathode.</p></div>","PeriodicalId":18283,"journal":{"name":"Materials Science for Energy Technologies","volume":"8 ","pages":"Pages 32-43"},"PeriodicalIF":0.0000,"publicationDate":"2024-07-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2589299124000119/pdfft?md5=ec16e99e5cfa7d6668b18793b15524f3&pid=1-s2.0-S2589299124000119-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Constraints in sustainable electrode materials development for solid oxide fuel cell: A brief review\",\"authors\":\"Lukman Ahmed Omeiza , Asset Kabyshev , Kenzhebatyr Bekmyrza , Kairat A. Kuterbekov , Marzhan Kubenova , Zhuldyz A. Zhumadilova , Yathavan Subramanian , Muhammed Ali , Nursultan Aidarbekov , Abul Kalam Azad\",\"doi\":\"10.1016/j.mset.2024.07.001\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Solid oxide fuel cells (SOFCs) are efficient electrochemical energy device that converts the chemical energy of fuels directly into electricity. It has a high power and energy density and a sustainable source of energy. The electrode (cathode and anode) materials are essential for the efficient operation of SOFCs. Several electrode materials have been studied in the last two decades, mainly perovskite materials. The investigated materials have resulted in improved electrochemical performance of SOFCs, increased commercial viability, and reduced operational costs. However, the sustainability of most of the material compositions (heteroatoms) used as electrodes in SOFCs has never been investigated. The present study examines the recent progress, challenges, and constraints associated with electrode material development in SOFCs from a sustainable perspective. Heteroatoms majorly employed for doping in electrode materials’ long-term availability on the earth’s surface was established. The study also provides an overview on the current state of electrode materials development for symmetrical solid oxide fuel cells. 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Constraints in sustainable electrode materials development for solid oxide fuel cell: A brief review
Solid oxide fuel cells (SOFCs) are efficient electrochemical energy device that converts the chemical energy of fuels directly into electricity. It has a high power and energy density and a sustainable source of energy. The electrode (cathode and anode) materials are essential for the efficient operation of SOFCs. Several electrode materials have been studied in the last two decades, mainly perovskite materials. The investigated materials have resulted in improved electrochemical performance of SOFCs, increased commercial viability, and reduced operational costs. However, the sustainability of most of the material compositions (heteroatoms) used as electrodes in SOFCs has never been investigated. The present study examines the recent progress, challenges, and constraints associated with electrode material development in SOFCs from a sustainable perspective. Heteroatoms majorly employed for doping in electrode materials’ long-term availability on the earth’s surface was established. The study also provides an overview on the current state of electrode materials development for symmetrical solid oxide fuel cells. This is intended to address the complexities of different materials development for the anode and cathode.
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