Photodissociation dynamics of ethanethiol in clusters: complementary information from velocity map imaging, mass spectrometry and calculations

Abstract: We investigate the solvent effects on photodissociation dynamics of the S-H bond in ethanethiol CH3CH2SH (EtSH). The H fragment images are recorded by velocity map imaging (VMI) at 243 nm in various expansion regimes ranging from isolated molecules to clusters of different sizes and compositions. The VMI experiment is accompanied by electron ionization mass spectrometry using a reflectron time-of-flight mass spectrometer (RTOFMS). The experimental data are interpreted using ab initio calculations. The direct S… Show more

“…The photodissociation of ethanethiol in the UV region (214-254 nm) producing neutral fragments has been reported. 19,20 However, to the best of our knowledge, we present here the first quantitative study of H 2 roaming and H 3 + formation from sulfur-containing compounds as well as characterizing substituent effects on H 3 + formation in any wavelength regime.…”

Substituent effects on H3+ formation via H2 roaming mechanisms from organic molecules under strong-field photodissociation

“…The photodissociation of ethanethiol in the UV region (214-254 nm) producing neutral fragments has been reported. 19,20 However, to the best of our knowledge, we present here the first quantitative study of H 2 roaming and H 3 + formation from sulfur-containing compounds as well as characterizing substituent effects on H 3 + formation in any wavelength regime.…”

Substituent effects on H3+ formation via H2 roaming mechanisms from organic molecules under strong-field photodissociation

“…43 The power of the combination of VMI with high-resolution RTOF mass spectrometry has been illustrated for a few examples investigating the photodissociation dynamics of molecules in clusters, where the complex information about the nature of the clusters could not be revealed by VMI or mass spectrometry experiments alone. 80,81 A quadrupole mass spectrometer (QMS) with continuous electron ionization is mounted in the last chamber. It can be used to monitor the molecular beam, or to measure the beam velocity by the time-of-flight in connection with the chopper in the PC chamber.…”

Pickup and reactions of molecules on clusters relevant for atmospheric and interstellar processes

A 45-degree ion-extraction photoelectron velocity map imaging apparatus coupled to the DUV-IR mass spectrometry and spectroscopy instrument