具有半金属磁性的过渡金属氢化物分子纳米线

发布时间：2018-07-01 21:37

本文选题：自旋电子器件 + 金属氢化物　；参考：《物理化学学报》2017年08期

【摘要】：正自旋电子器件基于电子的自旋进行信息的传递、处理与存储,具有目前传统半导体电子器件无法比拟的快速、高效和低能耗等优势,是未来信息技术的重要载体~1。寻找具有高自旋极化率与居里温度的磁性材料,是制备自旋电子器件的一个基础。其中,半金属磁性材料可以提供完全极化的载流子,被视为是构建自旋电子器件的理想材料,吸引了相关领域的广泛关注和研究~2。目前,
[Abstract]:Forward spin electronic devices, which transmit, process and store information based on electronic spin, have the advantages of high speed, high efficiency and low energy consumption, which can not be compared with traditional semiconductor electronic devices at present. It is an important carrier of information technology in the future. To find magnetic materials with high spin-polarizability and Curie temperature is the basis for the fabrication of spin electronic devices. Among them, semi-metallic magnetic materials can provide fully polarized carriers and are regarded as ideal materials for the fabrication of spin electronic devices, which has attracted extensive attention and research in related fields. At present,
【作者单位】：北京师范大学化学学院;
【分类号】：TB383.1

【相似文献】