VUV and soft x-ray ionization of a plant volatile: Vanillin (C8H8O3)

Plant volatiles are emitted by plants in response to several forms of stress, including interaction with energetic photons. In the present work, we discuss the interaction of extreme UV and soft X-ray photons with a plant volatile, vanillin. The single and double (multiple) ionization of the vanilli...

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Bibliographic Details
Published inThe Journal of chemical physics Vol. 144; no. 11; p. 114305
Main Authors Betancourt, A Moreno, Coutinho, L H, Bernini, R B, de Moura, C E V, Rocha, A B, de Souza, G G B
Format Journal Article
LanguageEnglish
Published United States 21.03.2016
Subjects
Benzaldehydes - chemistry
Benzaldehydes - radiation effects
Mass Spectrometry
Models, Chemical
Photons
Spectrophotometry
Ultraviolet Rays
Volatile Organic Compounds - chemistry
Volatile Organic Compounds - radiation effects
X-Rays
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Summary:Plant volatiles are emitted by plants in response to several forms of stress, including interaction with energetic photons. In the present work, we discuss the interaction of extreme UV and soft X-ray photons with a plant volatile, vanillin. The single and double (multiple) ionization of the vanillin molecule have been studied for the first time using time-of-flight mass spectrometry and VUV and soft X-ray photons (synchrotron radiation, at 12.0 eV, 21.2 eV, 130 eV, 310 eV, 531 eV, and 550 eV). At 12.0 and 21.2 eV, only singly charged species are observed and the parent ion, C8H8O3 (+), is the dominant species. Energy differences for some selected fragments were calculated theoretically in this energy region. At 130 eV, direct double and triple ionization of the valence electrons may occur. The fragmentation increases and CHO(+) becomes one of the main cations in the mass spectrum. The molecular ion is still the dominant species, but other fragments, such as C6H5O(+), begin to present similar intensities. At 310 eV, C 1s electrons may be ionized and Auger processes give rise to dissociative doubly ionized cations. Ionization around the O 1s edge has been studied both at the 531 eV resonance and above the ionization edge. Resonant and normal Auger processes play a significant role in each case and a large fragmentation of the molecule is observed at both photon energies, with intense fragments such as CHO(+) and CH3 (+) being clearly observed. A near edge X-ray absorption fine structure spectrum of the vanillin molecule was obtained around the O 1s ionization threshold. In addition, the fragmentation of vanillin has also been studied using a fast beam of electrons (800 eV), for the sake of comparison.
ISSN:1089-7690
DOI:10.1063/1.4944084