Solution attosecond chemistry

ERC (European Research Council)HORIZON-ERCID: 101078595
EC Contribution
€23,256
Consortium Size
1 orgs
Start Year
2023
Summary

X-ray photons carry sufficient energy to interact with molecular core-shells electrons. Accessible for decades in the energy domain, the resulting core-excited states (CES) can now be observed in the time domain using attosecond (10-18 s) spectroscopy. These states are important as they govern the lineshapes in all x-ray spectroscopies. Here, we propose to first investigate and then manipulate the CES time evolution in solvated biomolecules in order to reveal key chemical information i.e. solute-solvent interactions, local symmetries andchiral fields.CES lifetimes dictate the emission of secondary electrons active in radiotherapy. By observing the effect of solute-solvent interactions on CES we will be able to achieve a better understanding of the first molecular mechanisms of radiotherapy.CES are also a subtle probe of the absorbing atoms bonding environment. CES line splittings are lost in conventional x-ray spectroscopy due to homogenous broadening. We developed a technique based on the laser manipulation of CES capable of producing lineshapes up to an order of magnitude below the spectroscopys lifetime broadening and revealing core-level splitting. We will employ this approach to observe core-level splitting in solvated amino acids and metalloproteins and will use this new information to reveal the binding geometry of ligands with unprecedented accuracy.Finally, we will show how one can use nonlinear optics with attosecond pulses to reveal the chirality of the field surrounding sulphur and phosphorus atoms in biological samples. X-ray excitation localizes the point of view on the chiral field to a single atom. This perspective will allow us to examine the chiral landscape near the target atom. Here, chirality due to a single chiral centre will be probed in L-cysteine while the chirality due to the macromolecular arrangement will be measured in DNA helixes.Our proposal brings attoscience techniques in the investigation field of large solvated systems.

Consortium (1)

Project Results (5)

Source: CORDIS, the EU research results database.

Publications (5)
Real-time tracking of the intramolecular vibrational dynamics of liquid water
Communications Chemistry· 2026DOI
Gaia Giovannetti, Sergey Ryabchuk, Ammar Bin Wahid, Hui-Yuan Chen, Giovanni Batignani, Erik P. Månsson, Oliviero Cannelli, Emanuele Mai, Andrea Trabattoni, Ofer Neufeld, Angel Rubio, Vincent Wanie, Hugo Marroux, Tullio Scopigno, Majed Chergui, Francesca Calegari
Design of a compact, high-resolution velocity-map imaging spectrometer for attosecond spectroscopy
Review of Scientific Instruments· 2025DOI
D. Platzer; A. Autuori; C. Schouder; M. Lejman; L. Maëder; H. J. B. Marroux; C. Pothier; P. Salières; L. Poisson
Experimental and numerical study of direct sub-20fs multi-pass-cell post-compression of up to 4mJ, 80W Yb-based lasers
Applied Physics B· 2025DOI
Hergott, Jean-François; Réau, Fabrice; Tcherbakoff, Olivier; Lepetit, Fabien; Lericheux, Nicolas; Guer, Matthieu; Marroux, Hugo; Géneaux, Romain; Tyagi, Akansha; Cazali, Romain; Nonnon, Pierre; Bresteau, David; Ruchon, Thierry; Salières, Pascal; Auguste, Thierry
Explicit Symmetry Breaking of Generalized Angular Momentum by Second‐Harmonic Generation in Underdense Plasmas
Laser & Photonics Reviews· 2024DOI
Voisine, Alexis; Béjot, Pierre; Billard, Franck; Marroux, Hugo; Faucher, Olivier; Hertz, Edouard
Separation of kinetic rate orders in extreme ultraviolet transient grating spectroscopy
Journal of Physics B: Atomic, Molecular and Optical Physics· 2024DOI
Marroux, Hugo; Polishchuk, Serhii; Cannelli, Oliviero; Ingle, Rebecca; Mancini, Giulia; Bacellar, Camila; Puppin, Michele; Geneaux, Romain; Knopp, Gregor; Foglia, Laura; Pedersoli, Emanuele; Capotondi, Flavio; Nikolov, Ivaylo Petrov; Bencivenga, Filippo; Mincigrucci, Riccardo; Masciovecchio, Claudio; Chergui, Majed