TY - JOUR A1 - Schleier, Domenik A1 - Gerlach, Marius A1 - Pratim Mukhopadhyay, Deb A1 - Karaev, Emil A1 - Schaffner, Dorothee A1 - Hemberger, Patrick A1 - Fischer, Ingo T1 - Ammonia Borane, NH\(_{3}\)BH\(_{3}\): A Threshold Photoelectron-Photoion Coincidence Study of a Potential Hydrogen-Storage Material JF - Chemistry-A European Journal N2 - We have investigated the photoionization of ammonia borane (AB) and determined adiabatic ionization energy to be 9.26±0.03 eV for the X\(^{+}\) \(^{2}\)E←X \(^{1}\)A\(_{1}\) transition. Although the threshold photoelectron spectrum appears at first glance to be similar to the one of the isosteric ethane, the electronic situation differs markedly, due to different orbital energies. In addition, an appearance energy AE\(_{0K}\)-(NH\(_{3}\)BH\(_{3}\), NH\(_{3}\)BH\(_{2}\)\(^{+}\))= 10.00±0.03 eV has been determined, corresponding to the loss of a hydrogen atom at the BH\(_{3}\)-site. From the data, a 0 K bond dissociation energy for the B−H bond in the cation of 71.5±3 kJ mol\(^{-1}\) was derived, whereas the one in the neutral compound has been estimated to be 419±10 kJ mol\(^{-1}\). KW - ammonia borane KW - photoelectron spectroscopy KW - molecular orbitals KW - hydrogen storage KW - Jahn–Teller effect Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-318895 VL - 28 IS - 42 ER - TY - JOUR A1 - Gerlach, Marius A1 - Monninger, Sophie A1 - Schleier, Domenik A1 - Hemberger, Patrick A1 - Goettel, James T. A1 - Braunschweig, Holger A1 - Fischer, Ingo T1 - Photoelectron Photoion Coincidence Spectroscopy of NCl\(_{3}\) and NCl\(_{2}\) JF - ChemPhysChem N2 - We investigate NCl\(_{3}\) and the NCl\(_{2}\) radical by photoelectron-photoion coincidence spectroscopy using synchrotron radiation. The mass selected threshold photoelectron spectrum (ms-TPES) of NCl\(_{3}\) is broad and unstructured due to the large geometry change. An ionization energy of 9.7±0.1 eV is estimated from the spectrum and supported by computations. NCl2 is generated by photolysis at 213 nm from NCl\(_{3}\) and its ms-TPES shows an extended vibrational progression with a 90 meV spacing that is assigned to the symmetric N−Cl stretching mode in the cation. An adiabatic ionization energy of 9.94 ± 0.02 eV is determined. KW - radicals KW - photoelectron spectroscopy KW - synchrotron radiation KW - nitrogen trichloride KW - photolysis Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-257322 VL - 22 IS - 21 ER - TY - JOUR A1 - Berger, Sarina M. A1 - Rühe, Jessica A1 - Schwarzmann, Johannes A1 - Phillipps, Alexandra A1 - Richard, Ann-Katrin A1 - Ferger, Matthias A1 - Krummenacher, Ivo A1 - Tumir, Lidija-Marija A1 - Ban, Željka A1 - Crnolatac, Ivo A1 - Majhen, Dragomira A1 - Barišić, Ivan A1 - Piantanida, Ivo A1 - Schleier, Domenik A1 - Griesbeck, Stefanie A1 - Friedrich, Alexandra A1 - Braunschweig, Holger A1 - Marder, Todd B. T1 - Bithiophene-Cored, mono-, bis-, and tris-(Trimethylammonium)-Substituted, bis-Triarylborane Chromophores: Effect of the Number and Position of Charges on Cell Imaging and DNA/RNA Sensing JF - Chemistry—A European Journal N2 - The synthesis, photophysical, and electrochemical properties of selectively mono-, bis- and tris-dimethylamino- and trimethylammonium-substituted bis-triarylborane bithiophene chromophores are presented along with the water solubility and singlet oxygen sensitizing efficiency of the cationic compounds Cat\(^{1+}\), Cat\(^{2+}\), Cat(i)\(^{2+}\), and Cat\(^{3+}\). Comparison with the mono-triarylboranes reveals the large influence of the bridging unit on the properties of the bis-triarylboranes, especially those of the cationic compounds. Based on these preliminary investigations, the interactions of Cat\(^{1+}\), Cat\(^{2+}\), Cat(i)\(^{2+}\), and Cat\(^{3+}\) with DNA, RNA, and DNApore were investigated in buffered solutions. The same compounds were investigated for their ability to enter and localize within organelles of human lung carcinoma (A549) and normal lung (WI38) cells showing that not only the number of charges but also their distribution over the chromophore influences interactions and staining properties. KW - singlet oxygen KW - boron KW - bioimaging KW - luminescence KW - nucleic acid Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-256963 VL - 27 IS - 56 ER - TY - JOUR A1 - Mukhopadhyay, Deb Pratim A1 - Schleier, Domenik A1 - Wirsing, Sara A1 - Ramler, Jaqueline A1 - Kaiser, Dustin A1 - Reusch, Engelbert A1 - Hemberger, Patrick A1 - Preitschopf, Tobias A1 - Krummenacher, Ivo A1 - Engels, Bernd A1 - Fischer, Ingo A1 - Lichtenberg, Crispin T1 - Methylbismuth: an organometallic bismuthinidene biradical JF - Chemical Science N2 - We report the generation, spectroscopic characterization, and computational analysis of the first free (non-stabilized) organometallic bismuthinidene, BiMe. The title compound was generated in situ from BiMe\(_3\) by controlled homolytic Bi–C bond cleavage in the gas phase. Its electronic structure was characterized by a combination of photoion mass-selected threshold photoelectron spectroscopy and DFT as well as multi-reference computations. A triplet ground state was identified and an ionization energy (IE) of 7.88 eV was experimentally determined. Methyl abstraction from BiMe\(_3\) to give [BiMe(_2\)]• is a key step in the generation of BiMe. We reaveal a bond dissociation energy of 210 ± 7 kJ mol\(^{−1}\), which is substantially higher than the previously accepted value. Nevertheless, the homolytic cleavage of Me–BiMe\(_2\) bonds could be achieved at moderate temperatures (60–120 °C) in the condensed phase, suggesting that [BiMe\(_2\)]• and BiMe are accessible as reactive intermediates under these conditions. KW - methylbismuth KW - Photoelektronenspektroskopie Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-251657 UR - https://pubs.rsc.org/en/content/articlelanding/2020/SC/D0SC02410D VL - 11 IS - 29 ER - TY - THES A1 - Schleier, Domenik T1 - Using Photoionization to Investigate Reactive Boron Species and the Kinetics of Hydrocarbon Radicals T1 - Die Untersuchung von Reaktiven Borspezies und die Kinetik von Kohlenwassterstoffradikalen mittels Photoionization N2 - This thesis highlights the importance of isomer-selective approaches for the complete analysis of chemical processes. The method of choice is photoelectron/photoion coincidence spectroscopy, which allows simultaneous detection of electrons and ions coming from a single ionization event. Ionization techniques are sensitive and can record multiple species simultaneously, rendering them ideal tools to probe molecular transformations. Coupling these setups to synchrotron radiation allows one to analyze complex mixtures with isomer selectivity, based on ionization energies and vibrational structure in the cation, without any prior separation steps. Only few setups exist that can be used to gather these data, although their impact and applicability is growing steadily in various fields. For closed-shell species an easier and more widely used method is gas-chromatography, but most open shell species would not survive the separation process. Due to the reactivity of radicals they have to be created by selectively converting stable precursor molecules. Depending on the radical generation method different properties can be investigated ranging from thermodynamic data, over concentrations in high temperature environments, to chemical kinetics. The first part of this thesis deals with the determination of bimolecular rate constants. Isomeric hydrocarbon radicals were generated by a high intense UV light pulses and their kinetics with oxygen was measured. The pressure dependence of different isomers in the falloff region was compared to theoretical models, and their reactivity could be explained. The second part deals with boron containing compounds in various electronic situations. The corresponding precursors were successfully synthesized or could be bought. They were subjected to fluorine atoms in chemical reactors or destroyed pyrolytically at high temperatures. Most investigated species exhibited vibronic effects that could be elucidated using high level computations. N2 - Die vorliegende Arbeit lässt sich in zwei Unterkategorien gliedern. Sie befasst sich zum einen mit der isomerenselektiven Identifikation von hochreaktiven anorganischen Verbindungen. Zum anderen werden Ratenkonstanten für die Reaktionen verschiedener Kohlenwasserstoffradikale mit Sauerstoff ermittelt. Beide Bereiche sind durch die Frage der Energiespeicherung und -gewinnung in der Zukunft unmittelbar miteinander verbunden. Die Herausforderung reaktive Moleküle zu untersuchen, liegt oft darin sie in einer inerten Atmosphäre erzeugen zu müssen. Nur unter diesen Bedingungen hat ihre Reaktivität kaum Möglichkeiten sich zu entfalten. Hierzu wurden stabile Vorläufermoleküle in die Gasphase überführt und in einer verdünnten Umgebung möglichst selektiv in die gewünschte Radikalspezies überführt. Sowohl deren isomereselektive Identifikation als auch die Bestimmung der Ratenkonstanten wurde mittels Schwellenphotoelektronenspektroskopie durchgeführt. Mit Hilfe eines Photoelektron/Photoion Koinzidenz (PEPICO) Aufbaus konnten massenselektive Signale detektiert werden. Diese Methode benötigt eine Lichtquelle, die eine hohe Repetitionsrate aufweist und im VUV-Bereich komplett spektral durchstimmbar ist. Diese Voraussetzungen sind an Synchrotron-Strahlungsquellen verfügbar, weshalb die Experimente in dieser Arbeit an den entsprechenden Strahllinien an der SwissLightSource oder am Synchrotron SOLEIL durchgeführt wurden. Zur Unterstützung der experimentellen Daten wurden durch quantenchemische Rechnungen und Simulationen durchgeführt, aus denen eine klare isomerenselektive Zuordnung des jeweiligen Signals erfolgt. Die gesuchten Ratenkonstanten konnten mittels geeigneter Programme aus den Kinetikdaten extrahiert werden, wobei auch die Ratenkonstanten der Seitenreaktionen berücksichtigt wurden. KW - Biradikal KW - Kinetics KW - Spectroscopy KW - Photolysis KW - Radicals KW - Biradicals KW - Fotoionisation KW - Fotolyse KW - Synchrotronstrahlung KW - Synchrotron Radiation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-242137 ER - TY - JOUR A1 - Schleier, Domenik A1 - Reusch, Engelbert A1 - Lummel, Lisa A1 - Hemberger, Patrick A1 - Fischer, Ingo T1 - Threshold photoelectron spectroscopy of IO and IOH JF - ChemPhysChem N2 - Iodine oxides appear as reactive intermediates in atmospheric chemistry. Here, we investigate IO and HOI by mass‐selective threshold photoelectron spectroscopy (ms‐TPES), using synchrotron radiation. IO and HOI are generated by photolyzing iodine in the presence of ozone. For both molecules, accurate ionization energies are determined, 9.71±0.02 eV for IO and 9.79±0.02 eV for HOI. The strong spin‐spin interaction in the 3Σ− ground state of IO+ leads to an energy splitting into the Ω=0 and Ω=±1 sublevels. Upon ionization, the I−O bond shortens significantly in both molecules; thus, a vibrational progression, assigned to the I−O stretch, is apparent in both spectra. KW - ionization potential KW - radicals KW - reactive intermediates KW - photolysis KW - synchrotron radiatoren Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-204751 VL - 20 IS - 19 ER -