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Perspectives and Energy Applications of Magnetocaloric, Pyromagnetic, Electrocaloric, and Pyroelectric Materials
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2024-08-30 , DOI: 10.1002/aenm.202401739 Katja Klinar 1 , Jia Yan Law 2 , Victorino Franco 2 , Xavier Moya 3 , Andrej Kitanovski 1
Advanced Energy Materials ( IF 24.4 ) Pub Date : 2024-08-30 , DOI: 10.1002/aenm.202401739 Katja Klinar 1 , Jia Yan Law 2 , Victorino Franco 2 , Xavier Moya 3 , Andrej Kitanovski 1
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This perspective provides an overview of the state of research and innovation in the areas of magnetocaloric and pyromagnetic materials, and electrocaloric and pyroelectric materials, including the overlapping sub-areas of multicaloric and multipyro materials that can operate simultaneously under the application of magnetic and electric fields. These materials are critically examined for their potential to revolutionize cooling, heating, and energy-harvesting applications. This perspective first summarizes the state-of-the-art advancements and highlights recent significant developments. Then, it is identified and discussed that the prevailing challenges hindering the widespread adoption of technologies based on these materials. In this context, after consulting with members of the caloric and pyro communities, a technology roadmap is outlined to guide research efforts in overcoming current barriers to applications, with the goal of achieving impactful results by 2040. This roadmap emphasizes the importance of focusing on under-researched materials, novel devices, and application spaces, paving the way for interdisciplinary efforts that can lead to significant reductions in carbon dioxide emissions.
中文翻译:
磁热、热磁、电热和热释电材料的前景和能源应用
该观点概述了磁热和热释磁材料以及电热和热释电材料领域的研究和创新状态,包括可以在磁场和电场作用下同时运行的多热和多热释电材料的重叠子领域。这些材料被严格检查,以确定它们在彻底改变冷却、加热和能量收集应用的潜力。本视角首先总结了最先进的进展,并强调了最近的重大发展。然后,确定并讨论了阻碍基于这些材料的技术广泛采用的普遍挑战。在此背景下,在咨询了热量和 pyro 社区的成员后,概述了一个技术路线图,以指导研究工作克服当前的应用障碍,目标是到 2040 年取得有影响力的结果。该路线图强调了关注研究不足的材料、新型设备和应用领域的重要性,为可显着减少二氧化碳排放的跨学科工作铺平了道路。
更新日期:2024-08-30
中文翻译:
磁热、热磁、电热和热释电材料的前景和能源应用
该观点概述了磁热和热释磁材料以及电热和热释电材料领域的研究和创新状态,包括可以在磁场和电场作用下同时运行的多热和多热释电材料的重叠子领域。这些材料被严格检查,以确定它们在彻底改变冷却、加热和能量收集应用的潜力。本视角首先总结了最先进的进展,并强调了最近的重大发展。然后,确定并讨论了阻碍基于这些材料的技术广泛采用的普遍挑战。在此背景下,在咨询了热量和 pyro 社区的成员后,概述了一个技术路线图,以指导研究工作克服当前的应用障碍,目标是到 2040 年取得有影响力的结果。该路线图强调了关注研究不足的材料、新型设备和应用领域的重要性,为可显着减少二氧化碳排放的跨学科工作铺平了道路。
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