Your search keyword '"Sergo, Rudi"' showing total 2 results

1. Experimental and Theoretical Photoemission Study of Indole and Its Derivatives in the Gas Phase.

Author

Plekan O, Sa'adeh H, Ciavardini A, Callegari C, Cautero G, Dri C, Di Fraia M, Prince KC, Richter R, Sergo R, Stebel L, Devetta M, Faccialà D, Vozzi C, Avaldi L, Bolognesi P, Castrovilli MC, Catone D, Coreno M, Zuccaro F, Bernes E, Fronzoni G, Toffoli D, and Ponzi A

Abstract

The valence and core-level photoelectron spectra of gaseous indole, 2,3-dihydro-7-azaindole, and 3-formylindole have been investigated using VUV and soft X-ray radiation supported by both an ab initio electron propagator and density functional theory calculations. Three methods were used to calculate the outer valence band photoemission spectra: outer valence Green function, partial third order, and renormalized partial third order. While all gave an acceptable description of the valence spectra, the last method yielded very accurate agreement, especially for indole and 3-formylindole. The carbon, nitrogen, and oxygen 1s core-level spectra of these heterocycles were measured and assigned. The double ionization appearance potential for indole has been determined to be 21.8 ± 0.2 eV by C 1s and N 1s Auger photoelectron spectroscopy. Theoretical analysis identifies the doubly ionized states as a band consisting of two overlapping singlet states and one triplet state with dominant configurations corresponding to holes in the two uppermost molecular orbitals. One of the singlet states and the triplet state can be described as consisting largely of a single configuration, but other doubly ionized states are heavily mixed by configuration interactions. This work provides full assignment of the relative binding energies of the core level features and an analysis of the electronic structure of substituted indoles in comparison with the parent indole.

Published

2020

2. Photoionization Dynamics of the Tetraoxo Complexes OsO 4 and RuO 4 .

Author

Schio L, Alagia M, Toffoli D, Decleva P, Richter R, Schalk O, Thomas RD, Mucke M, Salvador F, Bertoch P, Benedetti D, Dri C, Cautero G, Sergo R, Stebel L, Vivoda D, and Stranges S

Abstract

The photoionization dynamics of OsO 4 and RuO 4 , chosen as model systems of small-size mononuclear heavy-metal complexes, has been theoretically studied by the time-dependent density functional theory (TDDFT). Accurate experimental measurements of photoionization dynamics as a benchmarking test for the theory are reported for the photoelectron asymmetry parameters of outer valence ionizations of OsO 4 , measured in the 17-90 eV photon energy range. The theoretical results are in good agreement with the available experimental data. The observed dynamical behavior of partial cross sections and asymmetry parameters has been related to both the coupling to the continuum of discrete excited states, giving strong modulations in the photon energy dependency, and the atomic composition of the initial ionized states, which determines the rate of decay of ionization probability for increasing excitation energies. Overall, an extensive analysis of the photoionization dynamics for valence and core orbitals is presented, showing good agreement with all the available experimental data. This provides confidence for the validity of the TDDFT approach in describing photoionization of heavy transition element compounds, with the perspective of being used for larger systems. Further experimental work is suggested for RuO 4 to gather evidence of the sensitivity of the theoretical method to the nature of the metal atom.

Published

2020