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Abstract
Manipulating the physical properties of solid matter using only photons is a major challenge in materials science. In this study, we present the photochemistry occurring in a single crystal of a simple cyanide complex, K4[MoIII(CN)7]·2H2O. Upon exposure to visible light at different wavelengths, a reversible breaking and reformation of dative bonds is triggered, resulting in a photoswitching of the MoIII coordination geometry between 6- and 7-coordinate. This transformation, in turn, induces a spin state change. The observed solid-state photochemical reactivity is robust, quantitative and occurs at a record-high temperature. It paves the way for the development of new photo-switchable high-temperature magnets and nanomagnets.
Supplementary materials
Title
Supplementary information for Reversible single crystal photochemistry and spin state switching in a metal-cyanide complex
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Additional plots, tables and diagrams associated with the main file
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Title
Irradiation of a single crystal of the title compound K4Mo(CN)7.2H2O (compound 1 in the paper)
Description
Irradiation of a single crystal iof K4Mo(CN)7.2H2O (compound 1 in the paper) using 405 nm laser light. The movie shows the decoloration of the single crystal due to the photodissociation of one of the cyanide ligands.
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