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Element- and enantiomer-selective visualization of molecular motion in real-time

Chemistry

Element- and enantiomer-selective visualization of molecular motion in real-time

R. Mincigrucci, J. R. Rouxel, et al.

This innovative research by authors including R. Mincigrucci and J. R. Rouxel delves into impulsive stimulated Raman scattering to unveil low-frequency vibrational modes in the Ibuprofen RS dimer, achieving enantiomer selectivity through precise probe light polarization!... show more
Abstract
Ultrafast optical-domain spectroscopies allow to monitor in real time the motion of nuclei in molecules. Achieving element-selectivity had to await the advent of time resolved X-ray spectroscopy, which is now commonly carried at X-ray free electron lasers. However, detecting light element that are commonly encountered in organic molecules, remained elusive due to the need to work under vacuum. Here, we present an impulsive stimulated Raman scattering (ISRS) pump/carbon K-edge absorption probe investigation, which allowed observation of the low-frequency vibrational modes involving specific selected carbon atoms in the Ibuprofen RS dimer. Remarkably, by controlling the probe light polarization we can preferentially access the enantiomer of the dimer to which the carbon atoms belong.
Publisher
Nature Communications
Published On
Jan 24, 2023
Authors
R. Mincigrucci, J. R. Rouxel, B. Rossi, E. Principi, C. Bottari, S. Catalini, J. S. Pelli-Cresi, D. Fainozzi, L. Foglia, A. Simoncig, A. Matruglio, G. Kurdi, F. Capotondi, E. Pedersoli, A. Perucchi, F. Piccirilli, A. Gessini, M. Giarola, G. Mariotto, M. Oppermann, S. Mukamel, F. Bencivenga, M. Chergui, C. Masciovecchio
DOI
https://doi.org/10.1038/s41467-023-36047-5
Tags
impulsive stimulated Raman scattering
Ibuprofen RS dimer
vibrational modes
enantiomer selectivity
probe light polarization
carbon atoms

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