Two-Step Photon Absorption Driving the Chemical Reaction in the Model Ruthenium Nitrosyl System [Ru­(py)4Cl­(NO)]­(PF6)2·1/2H2O

Various systems containing the [ML5NO] molecule, where M = Fe, Ru, ... and L = F, Cl, ..., exhibit switching under continuous light (CW) irradiation between the ground-state nitrosyl (GS), isonitrosyl (MSI), and side-on (MSII) configurations. The metastable populations, however, are often limited to...

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Published inInorganic chemistry Vol. 55; no. 9; pp. 4117 - 4123
Main Authors Khadeeva, Liya, Kaszub, Wawrzyniec, Lorenc, Maciej, Malfant, Isabelle, Buron-Le Cointe, Marylise
Format Journal Article
LanguageEnglish
Published American Chemical Society 02.05.2016
Subjects
Physics
two step photon absorption ruthenium nitrosyl complex
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Summary:Various systems containing the [ML5NO] molecule, where M = Fe, Ru, ... and L = F, Cl, ..., exhibit switching under continuous light (CW) irradiation between the ground-state nitrosyl (GS), isonitrosyl (MSI), and side-on (MSII) configurations. The metastable populations, however, are often limited to a few percent. The [Ru­(py)4Cl­(NO)]­(PF6)2·1/2H2O system is thus a remarkable model compound as the GS to MSI transformation is nearly complete in a single crystal. A predominant two-step photon absorption process during GS to MSI switching under blue light is revealed by visible absorption spectroscopy, although a low concentration of the transient species hinders the determination of this process by the structural signature. During the depopulation of MSI, both two-step and direct processes are evidenced under red CW irradiation. Different intermediate visible spectra revealing transient species during GS to MSI and the reverse photochemical processes are discussed in relation to MSII properties.
ISSN:0020-1669
1520-510X
DOI:10.1021/acs.inorgchem.5b02572