Ewa Erdmann - Science profile - Bridge of Knowledge

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Business contact

Centrum Transferu Wiedzy i Technologii
Location
Al. Zwycięstwa 27, 80-219 Gdańsk
Phone
+48 58 348 62 62
E-mail
biznes@pg.edu.pl

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Publication showcase

  • Roadmap on dynamics of molecules and clusters in the gas phase

    • H. Zettergren
    • A. Domaracka
    • T. Schlathölter
    • P. Bolognesi
    • S. Díaz-Tendero
    • M. Łabuda
    • S. Tosic
    • S. Maclot
    • P. Johnsson
    • A. Steber... and 34 others

    - EUROPEAN PHYSICAL JOURNAL D - Year 2021

    This roadmap article highlights recent advances, challenges and future prospects in studies of the dynamics of molecules and clusters in the gas phase. It comprises nineteen contributions by scientists with leading expertise in complementary experimental and theoretical techniques to probe the dynamics on timescales spanning twenty orders of magnitudes, from attoseconds to minutes and beyond, and for systems ranging in complexity...

    Full text available to download

  • Furan Fragmentation in the Gas Phase: New Insights from Statistical and Molecular Dynamics Calculations

    - JOURNAL OF PHYSICAL CHEMISTRY A - Year 2018

    We present a complete exploration of the different fragmentation mechanisms of furan (C4H4O) operating at low and high energies. Three different theoretical approaches are combined to determine the structure of all possible reaction intermediates, many of them not described in previous studies, and a large number of pathways involving three types of fundamental elementary mechanisms: isomerization, fragmentation, and H/H2 loss...

    Full text available to download

  • A general approach to study molecular fragmentation and energy redistribution after an ionizing event

    • E. Erdmann
    • N. Aguirre
    • S. Indrajith
    • J. Chiarinelli
    • A. Domaracka
    • P. Rousseau
    • B. A. Huber
    • P. Bolognesi
    • R. Richter
    • L. Avaldi... and 3 others

    - PHYSICAL CHEMISTRY CHEMICAL PHYSICS - Year 2021

    We propose to combine quantum chemical calculations, statistical mechanical methods, and photoionization and particle collision experiments to unravel the redistribution of internal energy of the furan cation and its dissociation pathways. This approach successfully reproduces the relative intensity of the different fragments as a function of the internal energy of the system in photoelectron–photoion coincidence experiments and...

    Full text available to download

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