Valence Photoionization of Thymine: Ionization Energies, Vibrational Structure, and Fragmentation Pathways from the Slow to the Ultrafast

Majer, Katharina; Signorell, Ruth; Heringa, M. F.; Goldmann, Maximilian; Hemberger, Patrick; Bodi, Andras

doi:10.1002/chem.201903282

Cited by 18 publications

(32 citation statements)

References 73 publications

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“…73 Furthermore, FC factors can be routinely calculated in the double harmonic approximation, and can reliably aid the interpretation and assignment of even crowded spectra. 74 No comparable approaches exist for the interpretation of PI spectra, which explains why iPEPICO provides superior isomerselectivity for reactive intermediates in pyrolysis studies, 75,76 flame sampling, 77,78 kinetic experiments, 79 and, more recently, also in catalysis. 14,15,61,62 Figure 7a shows ms-TPE spectra of the three xylylene isomers together with FC simulations in excellent agreement.…”

Section: ) the Third Analytical Dimension: Electron Spectroscopy For Isomer-selective Detectionmentioning

confidence: 99%

“…Excellent agreement with excited electronic state calculations and FC simulations are also common. 72,74 The velocity map electron images add a further layer of experimental information. Electrons are only imaged according to their inplane momenta in the raw images, but the 3D momentum distribution can be reconstructed to obtain the kinetic energy distribution as well as the angular distribution as a function of energy.…”

Section: ) the Third Analytical Dimension: Electron Spectroscopy For Isomer-selective Detectionmentioning

confidence: 99%

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New analytical tools for advanced mechanistic studies in catalysis: photoionization and photoelectron photoion coincidence spectroscopy

Hemberger

Bokhoven

Pérez‐Ramírez

et al. 2020

Catal. Sci. Technol.

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Section: ) the Third Analytical Dimension: Electron Spectroscopy For Isomer-selective Detectionmentioning

confidence: 99%

Section: ) the Third Analytical Dimension: Electron Spectroscopy For Isomer-selective Detectionmentioning

confidence: 99%

New analytical tools for advanced mechanistic studies in catalysis: photoionization and photoelectron photoion coincidence spectroscopy

Hemberger

Bokhoven

Pérez‐Ramírez

et al. 2020

Catal. Sci. Technol.

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“…This approach has proven to be a powerful, isomer-selective analytical tool in the analysis of reactive mixtures. 16,17 It has revealed the role of the electronic state in fragmentation processes of small halogen-substituted molecular ions, 18,19 unveiled complex dissociation mechanisms with parallel and sequential steps, 20,21 and delivered accurate thermochemistry and energetics of elusive species. [22][23][24] Furthermore, the two diastereomers, trans and cis, of the 1-methylallyl radical in pyrolysis 25 and combustion 26 environments could also be identified, similar to the fingerprints of the axial and equatorial conformers of fluorocyclohexane, C 6 H 11 F, with only a few tens of meV ionization energy difference.…”

Section: Introductionmentioning

confidence: 99%

Conformers, electronic states, and diabolical conical intersections in the valence photoelectron spectroscopy of halocyclohexanes

Zhou

Hemberger

et al. 2020

The Journal of Chemical Physics

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The threshold photoelectron spectrum (TPES) of halocyclohexanes C 6 H 11 X (X = Cl, Br, and I) was recorded at the Swiss Light Source and assigned with the help of density functional theory and equation-of-motion ionization potential coupled cluster calculations. Dyson orbitals show that the first two electronic states of the cation arise by symmetry breaking of the doubly degenerate eg orbitals in cyclohexane as perturbed by the halogen or by perturbation of the halogen lone pair by the cyclohexane ring scaffold in the case of light and heavy halogen substituents, respectively. When the resulting two states (A ′′ and A ′ ) are coupled via a conical intersection in C S symmetry, they are smoothly connected by molecular orbital rotation when the nuclear symmetry is relaxed. Even then, barriers at avoided crossings lead to distinct A ′ and pseudo-A ′′ minima, which contribute to the TPES separately. As axial and equatorial conformers are present in commensurate abundance at room temperature, four transitions are conceivable for each substituent in the low-energy range. Three of these could be identified, and their energy could be determined for each sample. Transitions to A ′ states are associated with a smaller geometry change and exhibit stronger origin transitions. Yet, most notably in X = Br, they do not correspond to the adiabatic ionization energy, which is indicated by a weak and broad band to the pseudo-A ′′ state with a lower onset energy. Franck-Condon vibrational analysis of the TPES coupled with quantum chemical calculations can provide insights into the behavior of conformers as well as strongly coupled electronic states.

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“…In general, one can identify the same ions along the mass/charge axis of Figure 2a as what was observed in the UV/UV experiment (Figure 1). Figure 2b shows lineouts taken from data seen in Figure 2a for fixed masses, giving the mass‐selected threshold photoelectron spectra (ms‐TPES) [30] . The appearance energies of photo‐ions are not affected by the threshold method, however the shape of the presented curves generally differs from non‐threshold spectra.…”

Section: Resultsmentioning

confidence: 99%

“…The sample was introduced into the spectrometer through heated piping connected to a sample reservoir, with the reservoir held at 53 °C and the piping at a higher temperature to avoid unwanted sample deposition and blockages. The ion arrival events in this measurement were selected by coincident electrons with low kinetic energy, creating a threshold ion spectrum [30] . Whilst only a sub‐section of the results of this experiment are presented here, full VUV experimental results covering a larger range of photon energies will be published at a later date.…”

Section: Methodsmentioning

confidence: 99%

Ultrafast Photo‐ion Probing of the Ring‐Opening Process in Trans‐Stilbene Oxide

Robinson

Niebuhr

Lever

et al. 2021

Chemistry A European J

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The ultrafast photo‐induced ring opening of the oxirane derivative trans‐stilbene oxide has been studied through the use of ultrafast UV/UV pump‐probe spectroscopy by using photo‐ion detection. Single‐ and multiphoton probe paths and final states were identified through comparisons between UV power studies and synchrotron‐based vacuum ultraviolet (VUV) single‐photon ionization studies. Three major time‐dependent features of the parent ion (sub‐450 fs decay, (1.5±0.2) ps, and >100 ps) were observed. These decays are discussed in conjunction with the primary ring‐opening mechanism of stilbene oxide, which occurs through C−C dissociation in the oxirane ring. The appearance of fragments relating to the masses of dehydrogenated diphenylmethane (167 amu) and dehydrogenated methylbenzene (90 amu) were also investigated. The appearance of the 167 amu fragment could suggest an alternative ultrafast ring‐opening pathway via the dissociation of one of the C−O bonds within the oxirane ring.

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Valence Photoionization of Thymine: Ionization Energies, Vibrational Structure, and Fragmentation Pathways from the Slow to the Ultrafast

Cited by 18 publications

References 73 publications

New analytical tools for advanced mechanistic studies in catalysis: photoionization and photoelectron photoion coincidence spectroscopy

New analytical tools for advanced mechanistic studies in catalysis: photoionization and photoelectron photoion coincidence spectroscopy

Conformers, electronic states, and diabolical conical intersections in the valence photoelectron spectroscopy of halocyclohexanes

Ultrafast Photo‐ion Probing of the Ring‐Opening Process in Trans‐Stilbene Oxide

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