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Rare Earth Interface Structure Materials: Synthesis, Applications, and Mechanisms
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2024-05-15 , DOI: 10.1021/accountsmr.4c00061
Wei Shen 1 , Pengfei Da 1 , Linchuan Guo 1 , Pinxian Xi 1, 2 , Chun-Hua Yan 1, 3
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2024-05-15 , DOI: 10.1021/accountsmr.4c00061
Wei Shen 1 , Pengfei Da 1 , Linchuan Guo 1 , Pinxian Xi 1, 2 , Chun-Hua Yan 1, 3
Affiliation
Rare earth interface structure materials (RE-ISM) play a crucial role in the field of inorganic synthesis and provide an effective means of achieving the refined utilization of rare earth elements. By capitalizing on the unique properties of rare earth, these materials are designed for functional applications at interfaces. Given the escalating energy and environmental concerns, there is an urgent need to expedite the development of efficient pathways for clean energy storage and conversion. Electrocatalytic conversion of an energetic small molecule is an efficient way of energy storage and conversion with clean energy as the carrier. However, the development of catalysts is often constrained by limitations in the catalyst system and a lack of clarity regarding synthesis and reaction processes. It provides new opportunities for the design of energetic small molecule catalytic materials by developing RE-ISM and analyzing the dynamic evolution process across time and space dimensions.
中文翻译:
稀土界面结构材料:合成、应用和机理
稀土界面结构材料(RE-ISM)在无机合成领域发挥着至关重要的作用,为实现稀土元素的精细化利用提供了有效手段。通过利用稀土的独特特性,这些材料专为界面功能应用而设计。鉴于能源和环境问题不断升级,迫切需要加快开发清洁能源存储和转换的有效途径。含能小分子的电催化转化是一种以清洁能源为载体的高效能量储存和转化方式。然而,催化剂的发展往往受到催化剂体系的限制以及合成和反应过程缺乏清晰度的限制。通过开发RE-ISM并分析跨时间和空间维度的动态演化过程,为含能小分子催化材料的设计提供了新的机遇。
更新日期:2024-05-15
中文翻译:
稀土界面结构材料:合成、应用和机理
稀土界面结构材料(RE-ISM)在无机合成领域发挥着至关重要的作用,为实现稀土元素的精细化利用提供了有效手段。通过利用稀土的独特特性,这些材料专为界面功能应用而设计。鉴于能源和环境问题不断升级,迫切需要加快开发清洁能源存储和转换的有效途径。含能小分子的电催化转化是一种以清洁能源为载体的高效能量储存和转化方式。然而,催化剂的发展往往受到催化剂体系的限制以及合成和反应过程缺乏清晰度的限制。通过开发RE-ISM并分析跨时间和空间维度的动态演化过程,为含能小分子催化材料的设计提供了新的机遇。