16 Titel
[Mo3S13]2- als Modellsystem für die katalytische Wasserstoffentwicklung durch MoSx: Untersuchung der Protonierungsstellen in der Gasphase durch Infrar [...]
In: Angewandte Chemie, 133 (2021), 10, S. 5133-5137Wiley, 2021[Mo3S13]2- as a model system for hydrogen evolution catalysis by MoSx: probing protonation sites in the gas phase by infrared multiple photon dissociation [...]
In: Angewandte Chemie International Edition, 60 (2021), 10, S. 5074-5077Wiley, 2021Proton transfer reactivity of molybdenum oxysulfide dianions [Mo2O2S6]2- and [Mo2O2S5]2-: the role of Coulomb barriers
In: International Journal of Mass Spectrometry, 464 (2021), Artikel-ID 116558, S. 1-8Elsevier, 2021Aktivierung von Kohlenstoffdioxid an Metallzentren: Entwicklung des Ladungstransfers von Mg .+ auf CO2 in [MgCO2(H2O)n].+, n=0–8
In: Angewandte Chemie, 132 (2020), 19, S. 7537-7541Weinheim : Wiley-VCH, 2020Evidence for lactone formation during infrared multiple photon dissociation spectroscopy of bromoalkanoate doped salt clusters
In: Physical Chemistry Chemical Physics, 22 (2020), 21, S. 12028-12038RSC Publishing, 2020Photochemistry and UV/Vis spectroscopy of hydrated vanadium cations, V+(H2O)n, n = 1–41, a model system for photochemical hydrogen evolution
In: Physical Chemistry Chemical Physics, 23 (2021), 39, Seite 22251-22262Cambridge : Royal Society of Chemistry, 2021Photochemical hydrogen evolution at metal centers probed with hydrated aluminum cations, Al+(H2O)n, n = 1–10
In: Chemistry - A European Journal, 27 (2021), 66, Seite 16367-16376Wiley, 2021Isomeric broadening of C60+ electronic excitation in helium droplets: experiments meet theory
In: Journal of Physical Chemistry Letters, 9 (2018), 6, S. 1237-1242Washington, D.C. : American Chemical Society, 2018Electron-triggered chemistry in HNO3/H2O complexes
In: Physical Chemistry Chemical Physics, 19 (2017), 19, S. 11753-11758Cambridge : Royal Society of Chemistry, 2017Photochemical activation of carbon dioxide in Mg+(CO2)(H2O)(0,1)
In: Theoretical Chemistry Accounts, 139 (2020), 8 Artikel-ID 127, S. 1-9Springer, 2020Release of formic acid from copper formate: hydride, proton coupled electron and hydrogen atom transfer all play their role
In: ChemPhysChem, 20 (2019), 11, S. 1420-1424Weinheim : Wiley-VCH, 2019Spectroscopy and photochemistry of copper nitrate cluster
In: Physical Chemistry Chemical Physics, 23 (2021), 16, S. 9911-9920Royal Society of Chemistry, 2021Decomposition of copper formate clusters: insight into elementary steps of calcination and carbon dioxide activation
In: ChemistryOpen, 8 (2019), 12, S. 1453-1459Weinheim : Wiley-VCH, 2019Infrared multiple photon dissociation spectroscopy of anionic copper formate clusters
In: The Journal of Chemical Physics, 153 (2020), 18 Atikel-ID 184301, S. 1-11College Park, MD : American Institute of Physics (AIP), 2020UV/VIS spectroscopy of copper formate clusters: insight into metal-ligand photochemistry
In: Chemistry - A European Journal, 26 (2020), 37, S. 8286-8295Wiley, 2020Structural properties of gas-phase molybdenum oxide clusters [Mo4O13]2-, [HMo4O13]-, and [CH3Mo4O13]- studied by collision-induced dissociation
In: Journal Of The American Society For Mass Spectrometry, 30 (2019), 10, S. 1946-1955New York : Springer, 2019