碳基纳米结构作为一种用于可调谐磁性的通用平台。

Carbon-based nanostructures as a versatile platform for tunable-magnetism.

作者信息

de Oteyza Dimas G, Frederiksen Thomas

机构信息

Nanomaterials and Nanotechnology Research Center (CINN), CSIC-UNIOVI-PA, E-33940 El Entrego, Spain.

Donostia International Physics Center (DIPC)-UPV/EHU, E-20018 San Sebastián, Spain.

出版信息

J Phys Condens Matter. 2022 Sep 5;34(44). doi: 10.1088/1361-648X/ac8a7f.

DOI:10.1088/1361-648X/ac8a7f

PMID:35977474

Abstract

Emergence of-magnetism in open-shell nanographenes has been theoretically predicted decades ago but their experimental characterization was elusive due to the strong chemical reactivity that makes their synthesis and stabilization difficult. In recent years, on-surface synthesis under vacuum conditions has provided unprecedented opportunities for atomically precise engineering of nanographenes, which in combination with scanning probe techniques have led to a substantial progress in our capabilities to realize localized electron spin states and to control electron spin interactions at the atomic scale. Here we review the essential concepts and the remarkable advances in the last few years, and outline the versatility of carbon-based-magnetic materials as an interesting platform for applications in spintronics and quantum technologies.

摘要

几十年前，理论上就已预测到开壳层纳米石墨烯中会出现磁性，但由于其强烈的化学反应性，使得它们的合成和稳定化变得困难，因此其实验表征一直难以实现。近年来，真空条件下的表面合成技术为纳米石墨烯的原子精确工程提供了前所未有的机会，这与扫描探针技术相结合，在我们实现局域电子自旋态和在原子尺度上控制电子自旋相互作用的能力方面取得了重大进展。在这里，我们回顾了基本概念和过去几年的显著进展，并概述了碳基磁性材料作为自旋电子学和量子技术应用的一个有趣平台的多功能性。

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碳基纳米结构作为一种用于可调谐磁性的通用平台。

Carbon-based nanostructures as a versatile platform for tunable-magnetism.

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