Anja Röder scite author profile

We present the photoelectron spectra of C3Hx (x = 0-3) formed in a microwave discharge flow-tube reactor by consecutive H abstractions from C3H4 (C3Hx + F → C3Hx-1 + HF (x = 1-4)), but also from F + CH4 schemes by secondary reactions. The spectra were obtained combining tunable VUV synchrotron radiation with double imaging electron/ion coincidence techniques, yielding mass-selected threshold photoelectron spectra. The obtained results complement not only existing ones, but for the first time the photoelectron spectra of C3, cyclic and linear C3H (c,l-C3H) as well as of the excited states of C3H3 are reported. In the case of c-C3H, l,t-C3H2 and C3H3, Franck-Condon simulations have been performed in order to assign the vibrational structure. The adiabatic ionization energies of these radicals are reported and compared to ab initio calculated values as well as to theoretical values using known enthalpies of formation.

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Synchrotron-based valence shell photoionization of CH radical

Gans

Holzmeier

Krüger

et al. 2016

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We report the first experimental observations of X(+) (1)Σ(+)←X (2)Π and a(+) (3)Π←X (2)Π single-photon ionization transitions of the CH radical performed on the DESIRS beamline at the SOLEIL synchrotron facility. The radical was produced by successive hydrogen-atom abstractions on methane by fluorine atoms in a continuous microwave discharge flow tube. Mass-selected ion yields and photoelectron spectra were recorded as a function of photon energy using a double imaging photoelectron/photoion coincidence spectrometer. The ion yield appears to be strongly affected by vibrational and electronic autoionizations, which allow the observation of high Rydberg states of the neutral species. The photoelectron spectra enable the first direct determinations of the adiabatic ionization potential and the energy of the first triplet state of the cation with respect to its singlet ground state. This work also brings valuable information on the complex electronic structure of the CH radical and its cation and adds new observations to complement our understanding of Rydberg states and autoionization processes.

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Femtosecond time-resolved photoelectron spectroscopy of the benzyl radical

Röder

Humeniuk

Giegerich

et al. 2017

Phys. Chem. Chem. Phys.

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Femtosecond dynamics of the 2-methylallyl radical: A computational and experimental study

Röder

Issler

Poisson

et al. 2017

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We investigate the photodynamics of the 2-methylallyl radical by femtosecond time-resolved photoelectron imaging. The experiments are accompanied by field-induced surface hopping dynamics calculations and the simulation of time-resolved photoelectron intensities and anisotropies, giving insight into the photochemistry and nonradiative relaxation of the radical. 2-methylallyl is excited at 236 nm, 238 nm, and 240.6 nm into a 3p Rydberg state, and the subsequent dynamics is probed by multiphoton ionization using photons of 800 nm. The photoelectron image exhibits a prominent band with considerable anisotropy, which is compatible with the result of theory. The simulations show that the initially excited 3p state is rapidly depopulated to a 3s Rydberg state, from which photoelectrons of high anisotropy are produced. The 3s state then decays within several 100 fs to the D (nπ) state, followed by the deactivation of the D to the electronic ground state on the ps time scale.

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Anja Röder

Valence shell threshold photoelectron spectroscopy of C₃H_x (x = 0–3)

Synchrotron-based valence shell photoionization of CH radical

Femtosecond time-resolved photoelectron spectroscopy of the benzyl radical

Femtosecond dynamics of the 2-methylallyl radical: A computational and experimental study

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Anja Röder

Valence shell threshold photoelectron spectroscopy of C3Hx (x = 0–3)

Synchrotron-based valence shell photoionization of CH radical

Femtosecond time-resolved photoelectron spectroscopy of the benzyl radical

Femtosecond dynamics of the 2-methylallyl radical: A computational and experimental study

Contact Info

Product

Resources

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Valence shell threshold photoelectron spectroscopy of C₃H_x (x = 0–3)