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001     393563
005     20221215211340.0
024 7 _ |a 10.3204/PUBDB-2017-11555
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037 _ _ |a PUBDB-2017-11555
041 _ _ |a English
100 1 _ |a Kierspel, Thomas
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|e Corresponding author
111 2 _ |a CLEO/Europe-EQEC 2017
|g CLEO
|c München
|d 2017-06-25 - 2017-06-30
|w Germany
245 _ _ |a X-ray photofragmentation study of gas-phase indole and indole-water cluster
260 _ _ |c 2017
300 _ _ |a 1
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520 _ _ |a The properties of atoms and molecules are strongly dependent on their environment and hydrogen bonds are of universal importance in chemistry and biochemistry. Therefore, it is highly desirable to bridge the gap between single, isolated molecules and molecules in solvation.Here, we present results on the photofragmentation of indole, the chromophore of the amino acid tryptophan, and indole-water1 clusters, i.e., indole ‘solvated’ by a single water molecule. The indole-water1 clusters were spatially separated from monomeric indole using the electric deflector [1,2]. The photofragmentation was induced by side specific 1s core hole ionization of the indole’s nitrogen or carbon atom leading to a relaxation of the highly excited molecules and clusters via an emission of electrons and/or photons and subsequent Coulomb explosion. Photo and Auger electrons as well as ionic fragments were recorded in coincidence with a double-sided velocity map imaging (VMI) spectrometer. The photofragmentation of indole and indole-water was compared by means of (photoelectron-) photoion-photoion coincidence (PIPICO, Fig. 1) maps, i.e., only channels where at least two ionic fragments could be detected have been compared. Charge, proton or hydrogen transfer to the hydrogen bonded water molecule, as well as different Coulomb explosion channels, due to further emission of electrons on the indole-side of the cluster, were observed. The results will be discussed based on the fragmentation channels of the different species, photoelectron and ion VMI images for different ionic fragments, and the 3D reconstruction of the molecule's orientation.Additionally, we present first results the photophysics following core hole ionization from the oxygen 1s of the hydrogen bonded water. Moreover, we discuss prospects for future time-resolved experiments utilizing UV pump–XFEL probe schemes to unravel the energy flow in UV-excited tryptophan and corresponding peptides. The indole-water experiment was carried out in a collaboration with DESY and Kansas State University. The experiment was conducted at the Variable Polarization XUV Beamline P04 of PETRA III at DESY.References[1] S. Trippel, Y-P. Chang, S. Stern, T. Mullins, L. Holmegaard, J. Küpper, "Spatial separation of state- and size-selected neutral clusters", Phys. Rev. A. 86, 033202 (2012)[2] Y-P. Chang, D. Horke, S. Trippel, J. Küpper, "Spatially-controlled complex molecules and their applications", Int. Rev. Phys. Chem. 34(4), 557-590 (2015)
536 _ _ |a 6211 - Extreme States of Matter: From Cold Ions to Hot Plasmas (POF3-621)
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536 _ _ |a CUI - Hamburger Zentrum für ultraschnelle Beobachtung (194651731)
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693 _ _ |a PETRA III
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700 1 _ |a Wiese, Joss
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700 1 _ |a Di Fraia, Michele
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700 1 _ |a Boll, Rebecca
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700 1 _ |a Erk, Benjamin
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700 1 _ |a Bomme, Cédric
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700 1 _ |a Rolles, Daniel
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700 1 _ |a Savelyev, Evgeny
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700 1 _ |a Viefhaus, Jens
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700 1 _ |a Trippel, Sebastian
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700 1 _ |a Küpper, Jochen
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910 1 _ |a Deutsches Elektronen-Synchrotron
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910 1 _ |a J.R. Macdonald Laboratory, Department of Physics, Kansas State University, Manhattan, KS 66506, USA
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