可逆能量转移产生的自由基自旋极化与磁敏感性

Radical Spin Polarization and Magnetosensitivity from Reversible Energy Transfer.

作者信息

Hudson John M, Evans Emrys W

机构信息

Department of Chemistry, Swansea University, Swansea SA2 8PP, United Kingdom.

Centre for Integrative Semiconductor Materials, Swansea SA1 8EN, United Kingdom.

出版信息

J Phys Chem Lett. 2024 Apr 18;15(15):4130-4135. doi: 10.1021/acs.jpclett.4c00656. Epub 2024 Apr 9.

DOI:10.1021/acs.jpclett.4c00656

PMID:38593182

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11033935/

Abstract

Molecular spins provide potential building units for future quantum information science and spintronic technologies. In particular, doublet ( = /) and triplet ( = 1) molecular spin states have the potential for excellent optical and spin properties for these applications if useful photon-spin mechanisms at room temperature can be devised. Here we explore the potential of exploiting reversible energy transfer between triplet and doublet states to establish magnetosensitive luminescence and spin polarization. We investigate the dependence of the photon-spin mechanism on the magnitude and sign of the exchange interaction between the doublet and triplet spin components in amorphous and crystalline model systems. The design of a magnetic field inclination sensor is proposed from understanding the required "structure" (spin interactions) to "function" (magnetosensitivity).

摘要

分子自旋为未来的量子信息科学和自旋电子技术提供了潜在的构建单元。特别是，如果能在室温下设计出有用的光子 - 自旋机制，那么双重态（(S = 1/2)）和三重态（(S = 1)）分子自旋态在这些应用中具有优异光学和自旋特性的潜力。在这里，我们探索利用三重态和双重态之间可逆能量转移来建立磁敏发光和自旋极化的潜力。我们研究了非晶态和晶态模型系统中光子 - 自旋机制对双重态和三重态自旋分量之间交换相互作用的大小和符号的依赖性。基于对从所需的“结构”（自旋相互作用）到“功能”（磁敏性）的理解，提出了一种磁场倾斜传感器的设计。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3735/11033935/9612ded85874/jz4c00656_0004.jpg

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可逆能量转移产生的自由基自旋极化与磁敏感性

Radical Spin Polarization and Magnetosensitivity from Reversible Energy Transfer.

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