Absolute chlorine and hydrogen atom quantum yield measurements in the 193.3 nm photodissociation of CH3CFCl2 (HCFC-141b)

Läuter, Almuth; Dhanya, S.; Volpp, Hans-Robert

doi:10.1063/1.1558316

Cited by 5 publications

(4 citation statements)

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“…Thus, photodissociation at 193 nm preferentially leads to C-Cl bond breaking which is supported by the experimentally measured Cl atom quantum yield values which are near unity. 3 Unfortunately, the VUV spectrum of CH 3 CFCl 2 is not reported at 121⋅6 nm. However, for very similar molecule i.e.…”

Section: Absolute Quantum Yield For Formation Of Hydrogen Atomsmentioning

confidence: 98%

“…At 193 nm, the main photodissociation channel is found to be formation of Cl atom with quantum yield of near unity and a minor channel leading to H atom formation (φ H = 0⋅05). 3,4 Rupture of C-Cl and C-H has been explained by mixed character for the σ* antibonding orbital. At the shorter wavelengths, the Rydberg excitations come into play and the spectra become richer.…”

Section: Introductionmentioning

confidence: 98%

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Lyman-α photodissociation of CH3CFCl2 (HCFC-141b): Quantum yield and translational energy of hydrogen atoms

et al. 2007

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The collision-free, room temperature gas-phase photodissociation dynamics of CH 3 CFCl 2 (HCFC-141b) was studied using Lyman-α laser radiation (121⋅6 nm) by the laser photolysis/laserinduced fluorescence 'pump/probe' technique. Lyman-α radiation was used both to photodissociate the parent molecule and to detect the nascent H atom products via (2p 2 P → 1s 2 S) laser-induced fluorescence. Absolute H atom quantum yield, φ H = (0⋅39 ± 0⋅09) was determined by calibration method in which CH 4 photolysis at 121⋅6 nm was used as a reference source of well-defined H atom concentrations. The line shapes of the measured H atom Doppler profiles indicate a Gaussian velocity distribution suggesting the presence of indirect H atom formation pathways in the Lyman-α photodissociation of CH 3 CFCl 2 . The average kinetic energy of H atoms calculated from Doppler profiles was found to be E T(lab) = (50 ± 3) kJ/mol. The nearly statistical translational energy together with the observed Maxwell-Boltzmann velocity distribution indicates that for CH 3 CFCl 2 the H atom forming dissociation process comes closer to the statistical limit.

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Section: Absolute Quantum Yield For Formation Of Hydrogen Atomsmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 98%

Lyman-α photodissociation of CH3CFCl2 (HCFC-141b): Quantum yield and translational energy of hydrogen atoms

et al. 2007

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“…Although its production was stopped in 1996, the release into atmosphere still continues because of the long-term use of the previously manufactured products. La ¨uter et al 18 determined the absolute quantum yield of chlorine and hydrogen atoms at 193 nm. The total chlorine atom quantum yield (W Cl1Cl* ) was found to be 1.01, and the H atom quantum yield W H ~0.04.…”

Section: Chlorine-containing Speciesmentioning

confidence: 99%

“…In the Hartley band, ozone primarily dissociates through the spin conserved channels, Chakraborty and Bhattacharya 89 addressed the issue of enrichment of heavier isotopomer in stratospheric ozone. They studied 16 O/ 17 O/ 18 O mass-dependent photodissociation in the visible region (Chappuis band, probed at 520 and 630 nm) and in the UV (Hartley band, probed at 253.6 and 184.9 nm). In the former region, only (14.2) occurs.…”

Section: Ammoniamentioning

confidence: 99%