采用自旋交叉纳米粒子运行的室温光电器件。

Room temperature optoelectronic devices operating with spin crossover nanoparticles.

作者信息

Dayen Jean-Francois, Konstantinov Nikita, Palluel Marlène, Daro Nathalie, Kundys Bohdan, Soliman Mohamed, Chastanet Guillaume, Doudin Bernard

机构信息

Université de Strasbourg, CNRS, Institut de Physique et Chimie des Matériaux de Strasbourg (IPCMS), UMR 7504, 23 rue du Loess, Strasbourg, 67034, France.

出版信息

Mater Horiz. 2021 Aug 1;8(8):2310-2315. doi: 10.1039/d1mh00703c. Epub 2021 Jun 30.

DOI:10.1039/d1mh00703c

PMID:34846435

Abstract

Molecular systems can exhibit multi-stimuli switching of their properties, with spin crossover materials having unique magnetic transition triggered by temperature and light, among others. Light-induced room temperature operation is however elusive, as optical changes between metastable spin states require cryogenic temperatures. Furthermore, electrical detection is hampered by the intrinsic low conductivity properties of these materials. We show here how a graphene underlayer reveals the light-induced heating that triggers a spin transition, paving the way for using these molecules for room temperature optoelectronic applications.

摘要

分子系统可以表现出其性质的多刺激切换，自旋交叉材料具有由温度、光等触发的独特磁转变。然而，光诱导室温操作难以实现，因为亚稳态自旋态之间的光学变化需要低温。此外，这些材料固有的低电导率特性阻碍了电检测。我们在此展示了石墨烯底层如何揭示触发自旋转变的光诱导加热，为将这些分子用于室温光电子应用铺平了道路。

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采用自旋交叉纳米粒子运行的室温光电器件。

Room temperature optoelectronic devices operating with spin crossover nanoparticles.

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