Article Dans Une Revue Physical Chemistry Chemical Physics Année : 2024

Local force constants and charges of the nitrosyl ligand in photoinduced NO linkage isomers in a prototypical ruthenium nitrosyl complex

Résumé

Photoinduced linkage isomers (PLI) of the NO ligand in transition-metal nitrosyl compounds can be identified by vibrational spectroscopy due to the large shifts of the $\tildeν$(NO) stretching vibration. We present a detailed experimental and theoretical study of the prototypical compound K$_2$[RuCl$_5$NO], where $\tildeν$(NO) shifts by ≈150 cm−1 when going from the N-bound (κN) ground state (GS) to the oxygen-bound (κO) metastable linkage isomer MS1, and by ≈360 cm$^{−1}$ when going to the side-on (κ$^2$N,O) metastable linkage isomer MS2. We show that the experimentally observed N–O stretching modes of the GS, MS1, and MS2 exhibit strong coupling with the Ru–N and Ru–O stretching modes, which can be decoupled using the local mode vibrational theory formalism. From the resulting decoupled pure two-atomic harmonic oscillators the local force constants are determined, which all follow the same quadratic behavior on the wavenumber. A Bader charge analysis shows that the total charge on the NO ligand is not correlated to the observed frequency shift of $\tildeν$(NO).

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hal-04634458 , version 1 (04-07-2024)

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Artem Mikhailov, Axel Gansmüller, Krzysztof Konieczny, Sébastien Pillet, Gennadiy Kostin, et al.. Local force constants and charges of the nitrosyl ligand in photoinduced NO linkage isomers in a prototypical ruthenium nitrosyl complex. Physical Chemistry Chemical Physics, 2024, 26 (21), pp.15255-15267. ⟨10.1039/d4cp01374c⟩. ⟨hal-04634458⟩
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