Excitation and dissociation of tungsten hexacarbonyl W(CO)6: Statistical and nonstatistical dissociation processes

The fragmentation scheme of singly charged adenine molecule (H(5)C(5)N(5)(+)) has been studied via neutral fluorine impact at 3 keV. By analyzing in correlation the kinetic energy loss of the scattered projectile F(-) produced in single charge transfer process and the mass of the charged fragments, the excitation energy distribution of the parent adenine molecular ions has been determined for each of the main dissociation channels. Several fragmentation pathways unrevealed in standard mass spectra or in appearance energy measurements are investigated. Regarding the well-known hydrogen cyanide (HCN) loss sequence, we demonstrate that although the loss of a HCN is the dominant decay channel for the parent H(5)C(5)N(5)(+) (m = 135), the decay of the first daughter ion H(4)C(4)N(4)(+) (m = 108) involves not only the HNC (m = 27) loss but also the symmetric breakdown into two dimers of HCN.

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Fragmentation of singly charged adenine induced by neutral fluorine beam impact at 3 keV

Chen

Brédy

Bernard

et al. 2011

The Journal of Chemical Physics

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Fragmentation dynamics of meso-tetraphenyl iron (III) porphyrin chloride dication under energy control

Allouche

Bernard

et al. 2017

The Journal of Chemical Physics

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Meso-tetraphenyl iron (III) porphyrin chloride dications (FeTPPCl) were prepared in collisions with F and H at 3 keV. The dominant fragmentation channels were observed to involve the loss of the Cl atom and the successive loss of neutral phenyl groups for both collisional systems. The mass spectra in correlation with the deposited excitation energy distributions of the parent ions for the main fragmentation channels were measured by using the collision induced dissociation under energy control method. The global excitation energy distribution was found to be shifted to lower energies in collisions with H compared to collisions with F showing a noteworthy change of the excitation energy window using different projectile ions. Partial excitation energy distributions of the parent ions FeTPPCl were obtained for each fragmentation group. In a theoretical work, we have calculated the dissociation energies for the loss of one and two phenyl groups, including phenyl and (phenyl ± H). The energy barrier for the hydrogen atom transfer during the loss of (phenyl-H) has been also calculated. The measured energy difference for the successive loss of two phenyl groups was compared with the theoretical values.

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Dissociation kinetics of excited ions: PEPICO measurements of Os3(CO)12 — The 7-35 eV single ionization binding energy region

Schalk

Josefsson

Geng

et al. 2018

The Journal of Chemical Physics

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In this article, we study the photoinduced dissociation pathways of a metallocarbonyl, Os(CO), in particular the consecutive loss of CO groups. To do so, we performed photoelectron-photoion coincidence (PEPICO) measurements in the single ionization binding energy region from 7 to 35 eV using 45-eV photons. Zero-energy ion appearance energies for the dissociation steps were extracted by modeling the PEPICO data using the statistical adiabatic channel model. Upon ionization to the excited ionic states above 13 eV binding energy, non-statistical behavior was observed and assigned to prompt CO loss. Double ionization was found to be dominated by the knockout process with an onset of 20.9 ± 0.4 eV. The oscillator strength is significantly larger for energies above 26.6 ± 0.4 eV, corresponding to one electron being ejected from the Os center and one from the CO ligands. The cross section for double ionization was found to increase linearly up to 35 eV ionization energy, at which 40% of the generated ions are doubly charged.

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Excitation and dissociation of tungsten hexacarbonyl W(CO)6: Statistical and nonstatistical dissociation processes

Cited by 6 publications

References 32 publications

Fragmentation of singly charged adenine induced by neutral fluorine beam impact at 3 keV

Fragmentation of singly charged adenine induced by neutral fluorine beam impact at 3 keV

Fragmentation dynamics of meso-tetraphenyl iron (III) porphyrin chloride dication under energy control

Dissociation kinetics of excited ions: PEPICO measurements of Os3(CO)12 — The 7-35 eV single ionization binding energy region

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