Nozomi Nakayama scite author profile

Nozomi Nakayama

2Publications

27Citation Statements Received

153Citation Statements Given

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146

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Wellesley College

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Low-Energy Electron-Induced Chemistry of CF₂Cl₂: Implications for the Ozone Hole?

et al. 2004

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We report on the first direct investigation of the low-energy electron-induced production of neutral species from the chlorofluorocarbon CF2Cl2, commonly known as Freon-12 or CFC-12. Our experiments were motivated by a newly proposed hypothesis, which suggests that low-energy electrons produced by cosmic rays, in addition to UV−vis photons from the sun, interact with chlorofluorocarbons to produce chlorine atoms that subsequently destroy ozone in the Antarctic. Our experimental procedure involves low-energy (5−100 eV) electron irradiation of nanoscale thin films (∼10 Å thickness) of CF2Cl2 grown at 100 K on a molybdenum single crystal in an ultrahigh vacuum chamber (p ∼ 1 × 10-10 Torr). Post-irradiation temperature-programmed desorption experiments were used to identify C2F4Cl2, C2F3Cl3, C2F2Cl4, C2F3Cl, C2F2Cl2, and C2F4 as electron-induced radiolysis products of CF2Cl2. In contrast to previous studies of photon-induced dissociation, our studies of electron-induced dissociation demonstrate facile C−F bond cleavage in CF2Cl2. This finding may have implications for understanding the partitioning of Cl and F among source, sink, and reservoir gases in the stratosphere.

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Surface Chemistry and Radiation Chemistry of Trifluoroiodomethane (CF₃I) on Mo(110)

et al. 2004

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The surface-induced and electron-induced chemistry of trifluoroiodomethane (CF3I), a potential replacement for chlorofluorocarbons (CFCs) and chlorofluorobromocarbons (halons), were investigated under ultrahigh vacuum conditions (p ∼ 1 × 10-10 Torr) on Mo(110). Results of temperature-programmed desorption (TPD) experiments indicate that dissociative adsorption of CF3I leads only to nonselective decomposition on Mo(110), in contrast to reactions of CF3I on other metal surfaces. Desorption of CF3 radicals and atomic iodine was detected mass spectrometrically during low-energy (10−100 eV) electron irradiation of four monolayer thick films of CF3I condensed at 100 K. Results of postirradiation temperature-programmed desorption experiments were used to identify CF2I2, C2F5I, C2F6, C2F4I2, and CFI3 as electron-induced reaction products of CF3I. Except for CFI3, all of these electron-induced reaction products of CF3I have been previously identified in γ-radiolysis studies, supporting our earlier claim that temperature-programmed desorption experiments conducted following low-energy electron irradiation of multilayer thin films provide an effective method to investigate the effects of high-energy radiation, including radical−radical reactions.

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Nozomi Nakayama

Low-Energy Electron-Induced Chemistry of CF₂Cl₂: Implications for the Ozone Hole?

Surface Chemistry and Radiation Chemistry of Trifluoroiodomethane (CF₃I) on Mo(110)

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Nozomi Nakayama

Low-Energy Electron-Induced Chemistry of CF2Cl2: Implications for the Ozone Hole?

Surface Chemistry and Radiation Chemistry of Trifluoroiodomethane (CF3I) on Mo(110)

Contact Info

Product

Resources

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Low-Energy Electron-Induced Chemistry of CF₂Cl₂: Implications for the Ozone Hole?

Surface Chemistry and Radiation Chemistry of Trifluoroiodomethane (CF₃I) on Mo(110)