Manuela S. Arruda scite author profile

Photoionization and photofragmentation studies of formic acid (HCOOH) are performed for the valence shell electron ionization process. The total and partial ion yield of gaseous HCOOH were collected as a function of photon energy in the ultraviolet region, between 11.12 and 19.57 eV. Measurements of the total and partial ion yield of gaseous formic acid molecule are performed with a time-of-flight mass spectrometer at the Synchrotron Light Brazilian Laboratory. Density functional theory and time dependent density functional theory are employed to calculate the ground and excited electronic state energies of neutral and ionic formic acid as well as their fragments and normal vibration modes. The ionization potential energies, the stability of electronic excited states of HCOOH(+), and the energies of opening fragmentation channels are estimated from theoretical-experimental analysis. Additionally, the main formic acid photofragmentation pathways by exposition of photons within that energy range are determined experimentally. These produced ions primarily have the following mass/charge ratios: 46 (HCOOH(+)), 45 (COOH(+)), 29 (HCO(+)), and 18 (H(2)O(+)).

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Fragmentation of Valence and Carbon Core Excited and Ionized CH₂FCF₃ Molecule

Morcelle

Medina

Ribeiro

et al. 2018

J. Phys. Chem. A

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The photofragmentation dynamics of 1,1,1,2-tetrafluoroethane (R134a) with photon energies from 12 eV up to 320 eV, surrounding the C 1s edge is discussed. The ionic moieties were measured in coincidence with the ejected electrons (PEPICO mode), and detected as a function of the photon energy. Around the C K core edge, the fragmentation profiles are examined regarding the site specific excitation of the CH2FCF3 molecule. In the present case, site-selectivity is favored by the distinct chemical environments surrounding both C atoms. NEXAFS spectrum at the C 1s edge simulation has been obtained at the TDDFT level and excited state geometry optimization calculations have been performed at the inner-shell multiconfigurational self-consistent field level. Our observations indicate that the C(H2F) 1s excitation to a highly repulsive potential expels a fluorine atom leaving the heavier radical fragment C2F3H2* which relaxes to the fundamental state of the ion C2F3H2 +. On the other hand, the excitation from the C(F3) 1s carbon to a repulsive state in the C–C bond, leads to a C–C bond cleavage, explaining the observed site specific fragmentation.

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Double photoionization of propylene oxide: A coincidence study of the ejection of a pair of valence-shell electrons

Falcinelli

Vecchiocattivi

Alagia

et al. 2018

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Propylene oxide, a favorite target of experimental and theoretical studies of circular dichroism, was recently discovered in interstellar space, further amplifying the attention to its role in the current debate on protobiological homochirality. In the present work, a photoelectron-photoion-photoion coincidence technique, using an ion-imaging detector and tunable synchrotron radiation in the 18.0-37.0 eV energy range, permits us (i) to observe six double ionization fragmentation channels, their relative yields being accounted for about two-thirds by the couple (CH, CHO) and one-fifth by (CH, CHO); (ii) to measure thresholds for their openings as a function of photon energy; and (iii) to unravel a pronounced bimodality for a kinetic-energy-released distribution, fingerprint of competitive non-adiabatic mechanisms.

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Manuela S. Arruda

Theoretical–Experimental Study of Formic Acid Photofragmentation in the Valence Region

Fragmentation of Valence and Carbon Core Excited and Ionized CH₂FCF₃ Molecule

Double photoionization of propylene oxide: A coincidence study of the ejection of a pair of valence-shell electrons

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Manuela S. Arruda

Theoretical–Experimental Study of Formic Acid Photofragmentation in the Valence Region

Fragmentation of Valence and Carbon Core Excited and Ionized CH2FCF3 Molecule

Double photoionization of propylene oxide: A coincidence study of the ejection of a pair of valence-shell electrons

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Fragmentation of Valence and Carbon Core Excited and Ionized CH₂FCF₃ Molecule