内嵌金属富勒烯的电子自旋研究进展-中国材料进展

文章信息/Info

Title:: Research Progress on the Electron Spin of Endohedral Metallofullerenes

Author(s):: WANG Xiao; FENG Yongqiang; FENG Liangliang; HUANG Jianfeng; CAO Liyun; （Shaanxi University of Science & Technology, Xi’an 710021, China）

摘要:: 内嵌金属富勒烯（EMFs）由于其独特的笼状嵌套结构而受到研究者的关注，富勒烯碳笼的保护使得内嵌金属离子或团簇显示出与众不同的电子结构及自旋特性，在量子信息处理、高密度信息存储及量子调控等方面具有重要应用价值。本文主要介绍了具有电子自旋活性的内嵌金属富勒烯的研究进展，分析了其电子结构及自旋特性。进一步讨论了目前进行金属富勒烯电子自旋调控的方法，如改变温度、笼外修饰及构筑自组装体等，通过研究富勒烯分子的电子自旋特性来探究分子的运动状态，为构筑基于富勒烯的量子体系奠定基础。

Abstract:: Endohedral metallofullerenes (EMFs) have attracted a variety of research interests due to their unique cage-like embedded structures. Profiting from the protection of the carbon cage, the internal metal ion(s) or cluster of EMFs exhibit distinctive electronic structures and spin characteristics, which shows important potential applications in quantum information processing, high-density information storage and quantum control. This review mainly introduces the research progress of spin-active EMFs and analyzes their electronic structures and spin characteristics, and then discusses three techniques to manipulate the electron spin of EMFs, such as changing the temperature, modifying the carbon cage and constructing self-assembly system. Through investigating the electron spin behaviors of EMFs, we can probe the molecular motion state, and thus make a foundation for building EMFs-based quantum systems.