辐射损伤与自旋交叉相互作用的初步观察。

Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials Pub Date : 2022-05-28 DOI:10.1107/s205252062200467x

D. Chernyshov, V. Dyadkin, K. Törnroos

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引用次数: 0

摘要

强烈的同步辐射使得时间分辨结构实验和越来越精细的时间采样成为可能。另一方面，辐射加热、辐射引起的体积变化和结构紊乱变得更加频繁。已知温度，体积变化和无序与分子自旋配合物的平衡相耦合，在两个或多个自旋态构型之间保持平衡。结合单晶衍射和同步辐射，说明了辐射损伤和相关效应如何影响自旋交叉过程，并可作为进一步操纵自旋交叉特性的另一种工具。

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Preliminary observations of the interplay of radiation damage with spin crossover.

Intense synchrotron radiation makes time-resolved structural experiments with increasingly finer time sampling possible. On the other hand, radiation heating, radiation-induced volume change and structural disorder become more frequent. Temperature, volume change and disorder are known to be coupled with equilibrium in molecular spin complexes, balancing between two or more spin state configurations. Combining single-crystal diffraction and synchrotron radiation it is illustrated how the radiation damage and associated effects can affect the spin crossover process and may serve as yet another tool to further manipulate the spin crossover properties.

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Acta Crystallographica Section B Structural Science, Crystal Engineering and Materials

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