Photodetachment Imaging Studies of the Electron Affinity of CF<sub>3</sub>

Deyerl, Hans-Jürgen; Alconcel, Leah-Nani; Continetti, Robert E.

doi:10.1021/jp003137k

Cited by 63 publications

(49 citation statements)

References 50 publications

(71 reference statements)

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“…2, this situation is shown in a schematic potential energy diagram of the ground state neutral CF 3 Br and the ground state anion along the C Br internuclear distance. Here the experimental adiabatic electron affinities for CF 3 Br (0.9 eV) [41], Br (3.36 eV) [43] and CF 3 (1.82 eV) [46] are used. The equilibrium C Br bond length 1.9Å for the neutral molecule and 2.7Å for the respective anion are adapted from reference [28] and the C Br bond dissociation energy (2.95 eV) from reference [42].…”

Section: Resultsmentioning

confidence: 99%

Dissociative electron attachment to bromotrifluoromethane

Ómarsson

Kristinsson

et al. 2015

International Journal of Mass Spectrometry

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Section: Resultsmentioning

confidence: 99%

Dissociative electron attachment to bromotrifluoromethane

Ómarsson

Kristinsson

et al. 2015

International Journal of Mass Spectrometry

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“…[3]. Reference [24], and assuming the ionisation energy of CF 3 is 9.04 eV [25] and the electron affinity is 1.82 eV [26]. The values in brackets of column 1 are 0 K enthalpies of formation, in units of kJ mol -1 .…”

Section: Discussionmentioning

confidence: 99%

The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth’s atmosphere

Chim

Kennedy

Tuckett

2003

Chemical Physics Letters

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: Using vacuum-UV radiation from a synchrotron source, the absorption spectrum of SF 5 CF 3 has been measured in the range 50-150 nm at a resolution of 0.12 nm. The cross section at the Lyman-α wavelength of 121.6 nm is 1.5 ± 0.3 x 10 -17 cm 2 molecule -1 . The loss of SF 5 CF 3 on a molecular basis from the earth's atmosphere is dominated, not by photon-induced dissociation, but by electron attachment in the mesosphere above 60 km, yielding SF 5 -. The lifetime of SF 5 CF 3 in the earth's atmosphere, however, is determined primarily by the meterological conditions that transport it from the earth's surface to the mesosphere, and not by processes that occur in that region. By comparison with data for SF 6 , a lifetime of ca. 1000 years for SF 5 CF 3 is estimated.3

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“…The bottom half of Table 5 shows that whilst dissociation to neutral SF 5 and CF 3 is clearly energetically possible since the SF 5 −CF 3 bond strength is only 3.86 eV (Section 5.3), dissociation to the ion pair CF 3 + + SF 5 − (but not to SF 5 + + CF 3 − ) can also occur with 10.2 eV photon excitation. In determining the energetics of these reactions, we use values for the electron affinity of the CF 3 and SF 5 radicals of 1.82 and 3.8 eV, respectively [67,68]. Although the quantum yields for dissociation into ion pairs are generally unknown, their formation following VUV photoexcitation of polyatomic molecules should be prevalent, but this process for SF 5 CF 3 has not yet been observed.…”

Section: Reactions Of Sf 5 Cf 3 With Vacuum-uv Photons Especially Lymentioning

confidence: 99%

Chapter 3: Trifluoromethyl Sulphur Pentafluoride, SF5CF3: Atmospheric Chemistry and Its Environmental Importance via the Greenhouse Effect

Tuckett

2006

Fluorine and the Environment - Atmospheric Chemistry, Emissions, &Amp; Lithosphere

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Advances in Fluorine Science (2006) 1, chapter 3 (pp. 89-129) (Elsevier, ISBN 0-444-52811-3) Fluorine and the Environment : atmospheric chemistry, emissions and lithosphere DOI: 10.1016/S1872-0358(06) This is the author's version of a work that was accepted for publication in Advances in Fluorine Science.Changes resulting from the publishing process, such as editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. A definitive version was subsequently published in the reference given above. The DOI number of the final paper is also given above. highest per molecule radiative forcing of any greenhouse pollutant, and the value of its global warming potential is only exceeded by that of SF 6 . Using tunable vacuum-UV radiation from a synchrotron and coincidence spectroscopy, the strength of the central S−C bond in SF 5 CF 3 is determined to be 3.86 ± 0.45 eV or 372 ± 43 kJ mol -1 , and this molecule is very unlikely to be removed from the earth's atmosphere by UV photolysis in the stratosphere. Complementary laboratory-based experiments have shown that the main sink route of this greenhouse gas is low-energy electron attachment in the mesosphere, with Lyman-α photodissociation at 121.6 nm being only a minor channel. By comparison with data for SF 6 , the lifetime of SF 5 CF 3 in the earth's atmosphere is estimated to be ca. 1000 years. The principal reason for the current low level of concern about the impact of SF 5 CF 3 on our environment is that the concentration levels are still very low, at the sub parts per trilllion level. The high growth rate of ca. 6% per annum, however, should cause concern for policymakers.

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Photodetachment Imaging Studies of the Electron Affinity of CF₃

Cited by 63 publications

References 50 publications

Dissociative electron attachment to bromotrifluoromethane

Dissociative electron attachment to bromotrifluoromethane

The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth’s atmosphere

Chapter 3: Trifluoromethyl Sulphur Pentafluoride, SF5CF3: Atmospheric Chemistry and Its Environmental Importance via the Greenhouse Effect

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Photodetachment Imaging Studies of the Electron Affinity of CF3

Cited by 63 publications

References 50 publications

Dissociative electron attachment to bromotrifluoromethane

Dissociative electron attachment to bromotrifluoromethane

The vacuum-UV absorption spectrum of SF5CF3; implications for its lifetime in the earth’s atmosphere

Chapter 3: Trifluoromethyl Sulphur Pentafluoride, SF5CF3: Atmospheric Chemistry and Its Environmental Importance via the Greenhouse Effect

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Photodetachment Imaging Studies of the Electron Affinity of CF₃