通过电子衍射研究亚微米级自旋交叉晶体中的晶格缺陷

Lattice Defects in Sub-Micrometer Spin-Crossover Crystals Studied by Electron Diffraction.

作者信息

Mba Hilaire, Picher Matthieu, Daro Nathalie, Marchivie Mathieu, Guionneau Philippe, Chastanet Guillaume, Banhart Florian

机构信息

Institut de Physique et Chimie des Matériaux, UMR 7504, Université de Strasbourg, CNRS, 67034 Strasbourg, France.

Université de Bordeaux, CNRS, Bordeaux INP, ICMCB, UMR 5026, 33600 Pessac, France.

出版信息

J Phys Chem Lett. 2023 Sep 14;14(36):8100-8106. doi: 10.1021/acs.jpclett.3c01942. Epub 2023 Sep 1.

DOI:10.1021/acs.jpclett.3c01942

PMID:37657083

Abstract

Spin-crossover particles of Fe(Htrz)trz with sizes of some hundred nanometers are studied by electron microscopy. Despite their high radiation sensitivity, it was possible to analyze the particles by imaging and diffraction so that a detailed analysis of crystallographic defects in individual particles became possible. The presence of one or several tilt boundaries, where the tilt axis is the direction of the polymer chains, is detected in each particle. An exposure of the particles to temperature variations or short laser pulses to induce the spin crossover shows that the defect structure only changes after a high number of transformations between the low-spin and high-spin phases. The observations are explained by the anisotropy of the atomic architecture within the crystals, which facilitates defects between weakly linked crystallographic planes.

摘要

通过电子显微镜对尺寸为几百纳米的Fe(Htrz)trz自旋交叉颗粒进行了研究。尽管它们具有很高的辐射敏感性，但仍可以通过成像和衍射对颗粒进行分析，从而有可能对单个颗粒中的晶体缺陷进行详细分析。在每个颗粒中都检测到存在一个或几个倾斜边界，其中倾斜轴为聚合物链的方向。将颗粒暴露于温度变化或短激光脉冲以诱导自旋交叉表明，只有在低自旋和高自旋相之间进行大量转变后，缺陷结构才会发生变化。这些观察结果可以通过晶体内部原子结构的各向异性来解释，这种各向异性有利于弱连接晶面之间的缺陷形成。

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通过电子衍射研究亚微米级自旋交叉晶体中的晶格缺陷

Lattice Defects in Sub-Micrometer Spin-Crossover Crystals Studied by Electron Diffraction.

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