Emelie Ertan scite author profile

The dynamics of fragmentation and vibration of molecular systems with a large number of coupled degrees of freedom are key aspects for understanding chemical reactivity and properties. Here we present a resonant inelastic X-ray scattering (RIXS) study to show how it is possible to break down such a complex multidimensional problem into elementary components. Local multimode nuclear wave packets created by X-ray excitation to different core-excited potential energy surfaces (PESs) will act as spatial gates to selectively probe the particular ground-state vibrational modes and, hence, the PES along these modes. We demonstrate this principle by combining ultra-high resolution RIXS measurements for gas-phase water with state-of-the-art simulations.

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Probing hydrogen bonding orbitals: resonant inelastic soft X-ray scattering of aqueous NH₃

Weinhardt

Ertan

Iannuzzi

et al. 2015

Phys. Chem. Chem. Phys.

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To probe the influence of hydrogen bonding on the electronic structure of ammonia, gas phase and aqueous NH3 have been investigated using soft X-ray absorption (XAS), resonant inelastic soft X-ray scattering (RIXS), and electronic structure calculations including dynamical effects. Strong spectral differences in the XAS scans as well as in the RIXS spectra between gas phase and aqueous NH3 are attributed to orbital mixing with the water orbitals, dipole-dipole interactions, differences in vibronic coupling, and nuclear dynamics on the time-scale of the RIXS process. All of these effects are consequences of hydrogen bonding and the impact of the associated orbitals, demonstrating the power of XAS and RIXS as unique tools to study hydrogen bonding in liquids.

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Probing hydrogen bond strength in liquid water by resonant inelastic X-ray scattering

et al. 2019

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Local probes of the electronic ground state are essential for understanding hydrogen bonding in aqueous environments. When tuned to the dissociative core-excited state at the O1 s pre-edge of water, resonant inelastic X-ray scattering back to the electronic ground state exhibits a long vibrational progression due to ultrafast nuclear dynamics. We show how the coherent evolution of the OH bonds around the core-excited oxygen provides access to high vibrational levels in liquid water. The OH bonds stretch into the long-range part of the potential energy curve, which makes the X-ray probe more sensitive than infra-red spectroscopy to the local environment. We exploit this property to effectively probe hydrogen bond strength via the distribution of intramolecular OH potentials derived from measurements. In contrast, the dynamical splitting in the spectral feature of the lowest valence-excited state arises from the short-range part of the OH potential curve and is rather insensitive to hydrogen bonding.

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Emelie Ertan

Selective gating to vibrational modes through resonant X-ray scattering

Probing hydrogen bonding orbitals: resonant inelastic soft X-ray scattering of aqueous NH₃

Probing hydrogen bond strength in liquid water by resonant inelastic X-ray scattering

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About

Emelie Ertan

Selective gating to vibrational modes through resonant X-ray scattering

Probing hydrogen bonding orbitals: resonant inelastic soft X-ray scattering of aqueous NH3

Probing hydrogen bond strength in liquid water by resonant inelastic X-ray scattering

Contact Info

Product

Resources

About

Probing hydrogen bonding orbitals: resonant inelastic soft X-ray scattering of aqueous NH₃