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  • 1. Dell'Angela, M.
    et al.
    Anniyev, T.
    Beye, M.
    Coffee, R.
    Foehlisch, A.
    Gladh, Jörgen
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Kaya, S.
    Katayama, T.
    Krupin, O.
    Nilsson, Anders
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum. SUNCAT Center for Interface Science and Catalysis, USA; SLAC National Accelerator Laboratory, USA.
    Nordlund, D.
    Schlotter, W. F.
    Sellberg, Jonas A.
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum. SUNCAT Center for Interface Science and Catalysis, USA.
    Sorgenfrei, F.
    Turner, J. J.
    Öström, Henrik
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Ogasawara, H.
    Wolf, M.
    Wurth, W.
    Vacuum space charge effects in sub-picosecond soft X-ray photoemission on a molecular adsorbate layer2015Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 2, nr 2, artikkel-id 025101Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Vacuum space charge induced kinetic energy shifts of O 1s and Ru 3d core levels in femtosecond soft X-ray photoemission spectra (PES) have been studied at a free electron laser (FEL) for an oxygen layer on Ru(0001). We fully reproduced the measurements by simulating the in-vacuum expansion of the photoelectrons and demonstrate the space charge contribution of the high-order harmonics in the FEL beam. Employing the same analysis for 400 nm pump-X-ray probe PES, we can disentangle the delay dependent Ru 3d energy shifts into effects induced by space charge and by lattice heating from the femtosecond pump pulse.

  • 2.
    Jadoun, Deependra
    et al.
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Gudem, Mahesh
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Kowalewski, Markus
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Capturing fingerprints of conical intersection: Complementary information of non-adiabatic dynamics from linear x-ray probes2021Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 8, nr 3, artikkel-id 034101Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Many recent experimental ultrafast spectroscopy studies have hinted at non-adiabatic dynamics indicating the existence of conical intersections, but their direct observation remains a challenge. The rapid change of the energy gap between the electronic states complicated their observation by requiring bandwidths of several electron volts. In this manuscript, we propose to use the combined information of different x-ray pump-probe techniques to identify the conical intersection. We theoretically study the conical intersection in pyrrole using transient x-ray absorption, time-resolved x-ray spontaneous emission, and linear off-resonant Raman spectroscopy to gather evidence of the curve crossing.

  • 3.
    Josefsson, Ida
    et al.
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Eriksson, Susanna K.
    Rensmo, Håkan
    Odelius, Michael
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Solvation structure around ruthenium(II) tris(bipyridine) in lithium halide solutions2016Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 3, nr 2, artikkel-id 023607Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    The solvation of the ruthenium(II) tris(bipyridine) ion ([Ru(bpy)(3)](2+)) is investigated with molecular dynamics simulations of lithium halide solutions in polar solvents. The anion distribution around the [Ru(bpy)(3)](2+) complex exhibits a strong solvent dependence. In aqueous solution, the iodide ion forms a solvent shared complex with [Ru(bpy)(3)](2+), but not in the other solvents. Between Cl- and [Ru(bpy)(3)](2+), the strong hydration of the chloride ion results in a solvent separated complex where more than one solvent molecule separates the anion from the metal center. Hence, tailored solvation properties in electrolytes is a route to influence ion-ion interactions and related electron transfer processes.

  • 4. Kunnus, K.
    et al.
    Josefsson, Ida
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Rajkovic, I.
    Schreck, S.
    Quevedo, W.
    Beye, M.
    Weniger, C.
    Grübel, S.
    Scholz, M.
    Nordlund, D.
    Zhang, W.
    Hartsock, R. W.
    Gaffney, K. J.
    Schlotter, W. F.
    Turner, J. J.
    Kennedy, B.
    Hennies, F.
    de Groot, F. M. F.
    Techert, S.
    Odelius, Michael
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Wernet, Ph.
    Föhlisch, A.
    Identification of the dominant photochemical pathways and mechanistic insights to the ultrafast ligand exchange of Fe(CO)(5) to Fe(CO)(4)EtOH2016Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 3, nr 4, artikkel-id 043204Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    We utilized femtosecond time-resolved resonant inelastic X-ray scattering and ab initio theory to study the transient electronic structure and the photoinduced molecular dynamics of a model metal carbonyl photocatalyst Fe(CO)(5) in ethanol solution. We propose mechanistic explanation for the parallel ultrafast intra-molecular spin crossover and ligation of the Fe(CO)(4) which are observed following a charge transfer photoexcitation of Fe(CO)(5) as reported in our previous study [ Wernet et al., Nature 520, 78 (2015)]. We find that branching of the reaction pathway likely happens in the (1)A(1) state of Fe(CO)(4). A sub-picosecond time constant of the spin crossover from B-1(2) to B-3(2) is rationalized by the proposed B-1(2) -> (1)A(1) -> B-3(2) mechanism. Ultrafast ligation of the B-1(2) Fe(CO)(4) state is significantly faster than the spin-forbidden and diffusion limited ligation process occurring from the B-3(2) Fe(CO)(4) ground state that has been observed in the previous studies. We propose that the ultrafast ligation occurs via B-1(2) -> (1)A(1) -> (1)A'Fe(CO)(4)EtOH pathway and the time scale of the (1)A(1) Fe(CO)(4) state ligation is governed by the solute-solvent collision frequency. Our study emphasizes the importance of understanding the interaction of molecular excited states with the surrounding environment to explain the relaxation pathways of photoexcited metal carbonyls in solution.

  • 5.
    Norell, Jesper
    et al.
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Odelius, Michael
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Vacher, Morgane
    Ultrafast dynamics of photo-excited 2-thiopyridone: Theoretical insights into triplet state population and proton transfer pathways2020Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 7, nr 2, artikkel-id 024101Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Ultrafast non-adiabatic dynamics of the small heteroaromatic compound 2-thiopyridone has been studied with surface hopping simulations based on multi-configurational quantum chemistry. Initial excitation of the bright S2 (π,π) state is found to promptly relax to S1 (n,π) through in-plane motion. The subsequent dynamics are oppositely driven by out-of-plane motion, which results both in complex population transfers among all of the available states and intersystem crossing predominantly through the ‘El-Sayed forbidden ’S1 (n,π) to T2 (n,π) channel, through significant mixing of electronic excitation characters. Despite this complexity, the femto- to picosecond triplet population, expected from several spectroscopic measurements, is well described as a simple exponential decay of the singlet state manifold. No proton transfer is found in the reported trajectories, but two mechanisms for its possible mediation in previously reported experiments are proposed based on the observed structural dynamics: (i) ultrafast intra-molecular transfer driven by the initially coherent in-plane motion and (ii) inter-molecular solvent-mediated transfer driven by the out-of-plane modes that dominate the later motion.

  • 6.
    Restaino, Lorenzo
    et al.
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Jadoun, Deependra
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Kowalewski, Markus
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Probing nonadiabatic dynamics with attosecond pulse trains and soft x-ray Raman spectroscopy2022Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 9, nr 3, artikkel-id 034101Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Linear off-resonant x-ray Raman techniques are capable of detecting the ultrafast electronic coherences generated when a photoexcited wave packet passes through a conical intersection. A hybrid femtosecond or attosecond probe pulse is employed to excite the system and stimulate the emission of the signal photon, where both fields are components of a hybrid pulse scheme. In this paper, we investigate how attosecond pulse trains, as provided by high-harmonic generation processes, perform as probe pulses in the framework of this spectroscopic technique, instead of single Gaussian pulses. We explore different combination schemes for the probe pulse as well as the impact of parameters of the pulse trains on the signals. Furthermore, we show how Raman selection rules and symmetry consideration affect the spectroscopic signal, and we discuss the importance of vibrational contributions to the overall signal. We use two different model systems, representing molecules of different symmetries, and quantum dynamics simulations to study the difference in the spectra. The results suggest that such pulse trains are well suited to capture the key features associated with the electronic coherence.

  • 7.
    Rodrigues, Gabriel Libânio Silva
    et al.
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Diesen, Elias
    Voss, Johannes
    Norman, Patrick
    Pettersson, Lars Gunnar Moody
    Stockholms universitet, Naturvetenskapliga fakulteten, Fysikum.
    Simulations of x-ray absorption spectra for CO desorbing from Ru(0001) with transition-potential and time-dependent density functional theory approaches2022Inngår i: Structural Dynamics, E-ISSN 2329-7778, Vol. 9, nr 1, artikkel-id 014101Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    The desorption of a carbon monoxide molecule from a Ru(0001) surface was studied by means of X-ray Absorption Spectra (XAS) computed with Transition Potential (TP-DFT) and Time Dependent (TD-DFT) DFT methods. By unraveling the evolution of the CO electronic structure upon desorption, we observed that at 2.3 Å from the surface, the CO molecule has already predominantly gas-phase character. While C 1s XAS is quite insensitive to changes in the C–O bond length, the O 1s excitation is very sensitive with the π* coming down in energy upon CO bond stretching, which competes with the increase in orbital energy due to the repulsive interaction with the metallic surface. We show in a systematic way that the TP-DFT method can describe the XAS rather well at the endpoints (chemisorbed and gas phase) but is affected by artificial charge transfer and/or incorrect spin treatment in the transition region in cases like CO, where there are low-lying π* orbitals and large exchange interactions between the core 1s and valence-acceptor π* orbitals. As an alternative, we demonstrate by comparing with experimental data that a linear response approach using TD-DFT employing common exchange-correlation functionals and finite-size clusters can yield a good description of the spectral evolution of the 1s → π* transition with correct spin and gas-to-chemisorbed chemical shifts in good agreement with experiment.

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