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Excited state charge distribution and bond expansion of ferrous complexes observed with femtosecond valence-to-core x-ray emission spectroscopy

Kathryn Ledbetter, Marco Reinhard, Kristjan Kunnus, Alessandro Gallo, Alexander Britz, Elisa Biasin, James M. Glownia, S. Nelson, Tim B. van Driel, Clemens Weninger, Diana Bregenholt Zederkof, Kristoffer Haldrup, Amy A. Cordones, Kelly J. Gaffney, Dimosthenis Sokaras, Roberto Alonso‐Mori

2020The Journal of Chemical Physics18 citationsDOIOpen Access PDF

Abstract

Valence-to-core x-ray emission spectroscopy (VtC XES) combines the sample flexibility and element specificity of hard x-rays with the chemical environment sensitivity of valence spectroscopy. We extend this technique to study geometric and electronic structural changes induced by photoexcitation in the femtosecond time domain via laser-pump, x-ray probe experiments using an x-ray free electron laser. The results of time-resolved VtC XES on a series of ferrous complexes [Fe(CN)2n(2, 2′-bipyridine)3−n]−2n+2, n = 1, 2, 3, are presented. Comparisons of spectra obtained from ground state density functional theory calculations reveal signatures of excited state bond length and oxidation state changes. An oxidation state change associated with a metal-to-ligand charge transfer state with a lifetime of less than 100 fs is observed, as well as bond length changes associated with metal-centered excited states with lifetimes of 13 ps and 250 ps.

Topics & Concepts

Excited stateFemtosecondValence (chemistry)SpectroscopyAtomic physicsMaterials scienceEmission spectrumCore chargeMössbauer spectroscopyCore (optical fiber)Spectral lineChemistryPhysicsCrystallographyElectronCore electronLaserOpticsNuclear physicsOrganic chemistryComposite materialAstronomyQuantum mechanicsX-ray Spectroscopy and Fluorescence AnalysisElectron and X-Ray Spectroscopy TechniquesCO2 Reduction Techniques and Catalysts