Ultrafast X-ray Absorption Near Edge Structure Reveals Ballistic Excited State Structural Dynamics

Miller, Nicholas; Deb, Aniruddha; Alonso‐Mori, R.; Glownia, James M.; Kiefer, Laura M.; Konar, Arkaprabha; Michocki, Lindsay B; Sikorski, Marcin; Sofferman, Danielle; Song, Sanghoon; Toda, Megan J.; Wiley, Theodore E.; Zhu, Diling; Kozłowski, Pawel M.; Kubarych, Kevin J.; Penner‐Hahn, James E.; Sension, Roseanne J.

doi:10.1021/acs.jpca.8b04223

Cited by 37 publications

(65 citation statements)

References 22 publications

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“…Oscillatory wavepacket motions have been clearly measured in time-resolved WAXS [19,27,32], however the effects of purely nuclear dynamics in ultrafast Kα/Kβ XES has not been observed [10][11][12][13][14]. This contrasts with other X-ray spectroscopic methods that directly involve valence orbitals, such as X-ray absorption [33][34][35][36][37][38] and resonant inelastic X-ray scattering [39][40][41], which are sensitive to both electronic and nuclear structure. The development of ultrafast XES requires understanding the impact of nuclear dynamics on Ka and Kb XES spectra.…”

Section: Introductionmentioning

confidence: 99%

Vibrational wavepacket dynamics in Fe carbene photosensitizer determined with femtosecond X-ray emission and scattering

et al. 2020

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The non-equilibrium dynamics of electrons and nuclei govern the function of photoactive materials. Disentangling these dynamics remains a critical goal for understanding photoactive materials. Here we investigate the photoinduced dynamics of the [Fe(bmip)2]2+ photosensitizer, where bmip = 2,6-bis(3-methyl-imidazole-1-ylidine)-pyridine, with simultaneous femtosecond-resolution Fe Kα and Kβ X-ray emission spectroscopy (XES) and X-ray solution scattering (XSS). This measurement shows temporal oscillations in the XES and XSS difference signals with the same 278 fs period oscillation. These oscillations originate from an Fe-ligand stretching vibrational wavepacket on a triplet metal-centered (3MC) excited state surface. This 3MC state is populated with a 110 fs time constant by 40% of the excited molecules while the rest relax to a 3MLCT excited state. The sensitivity of the Kα XES to molecular structure results from a 0.7% average Fe-ligand bond length shift between the 1 s and 2p core-ionized states surfaces.

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Section: Introductionmentioning

confidence: 99%

Vibrational wavepacket dynamics in Fe carbene photosensitizer determined with femtosecond X-ray emission and scattering

et al. 2020

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“…Similar fast dynamics have been observed in cobalamins, where simultaneous ballistic expansion along multiple vibrational coordinates was shown to rapidly dissipate vibrational energy in less than 500 fs. 49,50 The <100 fs formation of the 3 In that work, the initial (π, π*) state evolved into a Ni(I) ligand-to-metal charge transfer state in 1 ps, followed by back-electron transfer to form a…”

Section: Discussionmentioning

confidence: 99%

Sub-100 Fs Intersystem Crossing to a Metal-Centered Triplet in Ni(II)OEP Observed with M-Edge XANES

Ryland

Zhang

Vura‐Weis

2019

Preprint

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Nickel porphyrins have been extenstively studied as photosensitizers due to their long-lived metal-centered excited states. The multiplicity of the (d,d) state, and/or the rate of intersystem crossing between singlet and triplet metal-centered states, has remained uncertain due to the spin-insensitivity of many spectral probes. In this work, we directly probe the metal 3d shell occupation of nickel(II) octaethylporphyrin (NiOEP) using femtosecond M2,3-edge X-ray absorption near-edge structure (XANES). A tabletop high-harmonic source is used to perform 400 nm pump, extreme-ultraviolet probe transient absorption spectroscopy with ~100 fs time resolution. Photoexcitation produces a (π,π*) state that evolves with a time constant of 48 fs to a vibrationally hot metal-centered triplet 3(d,d) excited state with a lifetime of 595 ps. The spin sensitivity of M-edge XANES allows the 3(d,d) state to be distinguished from a potential 1(d,d) state, as shown by charge transfer multiplet simulations and comparison to triplet nickel(II) oxide. Vibrational cooling of the hot triplet state occurs over tens of ps, with minimal change in the electronic structure of the nickel(II) center. No evidence of an LMCT or MLCT intermediate state is seen within the time resolution of the instrument, suggesting that if such a state exists in NiOEP it depopulates in <25 fs. Finally, this study demonstrates the ability of table high-harmonic XUV sources to measure excited-state spin transitions in molecular transition metal complexes.

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“…15 XFEL based XANES was first used at the Linac Coherent Light Source (LCLS) to study the ultrafast spin switching in the model systems [Fe(bpy) 3 ] 2+ 16 and [Fe(phen) 2 (NCS) 2 ]. 17 Since then, femtosecond XANES has found numerous applications: the photoactivation and the subsequent ultrafast structural and electronic dynamics of the active sites of several biomolecules have been investigated, including carbonmonoxy myoglobin, 18 vitamin B12, 19,20 and in model Ni-porphyrins. 21 Next to TM complex systems, fs timeresolved XAS has been applied to condensed matter charge carrier dynamics; at the SACLA XFEL, the charge-carrier dynamics of anatase TiO 2 nanoparticles in an aqueous solution were investigated via Ti K-edge XANES, which revealed trapping of the conduction band electrons in B100 fs.…”

Section: Introductionmentioning

confidence: 99%

Resolving structures of transition metal complex reaction intermediates with femtosecond EXAFS

Britz

Abraham

Biasin

et al. 2020

Phys. Chem. Chem. Phys.

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Ultrafast X-ray Absorption Near Edge Structure Reveals Ballistic Excited State Structural Dynamics

Cited by 37 publications

References 22 publications

Vibrational wavepacket dynamics in Fe carbene photosensitizer determined with femtosecond X-ray emission and scattering

Vibrational wavepacket dynamics in Fe carbene photosensitizer determined with femtosecond X-ray emission and scattering

Sub-100 Fs Intersystem Crossing to a Metal-Centered Triplet in Ni(II)OEP Observed with M-Edge XANES

Resolving structures of transition metal complex reaction intermediates with femtosecond EXAFS

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