Clotilde Le Vot scite author profile

The reactivity of a series of commonly used halogenated compounds (trihalomethanes, chlorofluorocarbon, hydrochlorofluorocarbon, fluorocarbons, and hydrofluoroolefin) with hydroxide and oxygen anion is studied in a compact Fourier transform ion cyclotron resonance. O is formed by dissociative electron attachment to N O and HO by a further ion-molecule reaction with ammonia. Kinetic experiments are performed by increasing duration of introduction of the studied molecule at a constant pressure. Hydroxide anion reactions mainly proceed by proton transfer for all the acidic compounds. However, nucleophilic substitution is observed for chlorinated and brominated compounds. For fluorinated compounds, a specific elimination of a neutral fluorinated alkene is observed in our results in parallel with the proton transfer reaction. Oxygen anion reacts rapidly and extensively with all compounds. Main reaction channels result from nucleophilic substitution, proton transfer, and formal H transfer. We highlight the importance of transfer processes (atom or ion) in the intermediate ion-neutral complex, explaining part of the observed reactivity and formed ions. In this paper, we present the first reactivity study of anions with HFO 1234yf. Finally, the potential of O and HO as chemical ionization reagents for trace analysis is discussed.

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Development of a transportable FT-ICR MS associated with a glow discharge ionization source

Vot

Bouaziz

Héninger

et al. 2016

International Journal of Mass Spectrometry

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Clotilde Le Vot

Oxygen anion (O⁻) and hydroxide anion (HO⁻) reactivity with a series of old and new refrigerants

Development of a transportable FT-ICR MS associated with a glow discharge ionization source

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Clotilde Le Vot

Oxygen anion (O−) and hydroxide anion (HO−) reactivity with a series of old and new refrigerants

Development of a transportable FT-ICR MS associated with a glow discharge ionization source

Contact Info

Product

Resources

About

Oxygen anion (O⁻) and hydroxide anion (HO⁻) reactivity with a series of old and new refrigerants