Low energy (0–10 eV) electron attachment to CF3Cl clusters: Formation of product ions and analysis of excess translational energy

1 July 1990

journal article
research article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 93 (1) , 357-364
https://doi.org/10.1063/1.459534

Abstract

Electron attachment to CF₃Cl clusters has been studied mass spectrometrically in a beam experiment. In addition to the fragments known from dissociative attachment to the isolated compound (F⁻, Cl⁻, etc.), a veriety of larger complexes such as M⁻_n, M_n⋅Cl⁻, M_n⋅F⁻, n≥1 (M=CF₃Cl) could be observed. The resonance profiles of the ion yield curves suggest that the initial step of electron capture proceeds via the formation of a temporary CF₃Cl⁻ ion within the target aggregate followed by different decomposition reactions. Among the various products, the parent radical anion (CF₃Cl⁻) is generated in its relaxed configuration not accessible in electron capture by the isolated molecule. A time‐of‐flight (TOF) analysis of the Cl⁻ products reveals two decay channels, one associated with high excess translational energy and a second releasing the Cl⁻ ion with only thermal energy.

Keywords

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