Journal ArticleDOI
Kinetic study of the reactions of Cl atoms with HNO3, H2O2, and HO2
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In this article, the authors studied the kinetics of the reactions of Cl atoms with HNO3, H2O2, and HO2 using discharge flow mass spectrometric technique.Abstract:
The kinetics of the reactions of Cl atoms with HNO3, H2O2, and HO2 have been studied by the discharge flow–mass spectrometric technique. The following rate constants were obtained (in cm3 molecule−1⋅s−1): Cl+HNO3→HCl+NO3, k=1.5 ×10−11 exp(−8700/RT) in the range 298–633 K; Cl+H2O2 →HCl+HO2, k= (4.0±0.4) ×10−13 at 298 K; Cl+HO2→HCl +O2, k= (6.8±2.5) ×10−11 at 298 K. The stratospheric implication of these data is discussed, and it is estimated that the Cl+HO2 reaction could have a comparable effect to the Cl+CH4 reaction as a sink of chlorine atoms in the stratosphere.read more
Citations
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The nitrate radical: Physics, chemistry, and the atmosphere
Richard P. Wayne,Ian Barnes,P. Biggs,John P. Burrows,Carlos E. Canosa-Mas,Jens Hjorth,G. Le Bras,Geert K. Moortgat,Dieter Perner,G. Poulet,G Restelli,Howard Sidebottom +11 more
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Rates of chemical reactions dominated by long-range intermolecular forces
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Halogen oxides: Radicals, sources and reservoirs in the laboratory and in the atmosphere
Richard P. Wayne,G. Poulet,P. Biggs,John P. Burrows,R. A. Cox,Paul J. Crutzen,Garry Hayman,Michael E. Jenkin,G. Le Bras,Geert K. Moortgat,Ulrich Platt,Ralph N. Schindler +11 more
TL;DR: In this article, a review of the relationship between the laboratory investigations and the atmospheric studies is presented, focusing on gas-phase processes of halogen oxides and their precursors in the laboratory and the atmosphere.
Journal ArticleDOI
Temperature dependence of the reaction of ClO and HO2 radicals
TL;DR: In this article, the rate constant for the reaction of ClO with HO2, k1, was measured over the temperature range 235⩽T ⩽393 K using laser magnetic resonance detection to monitor directly the concentrations of both reactants.
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Temperature dependence of the rate constant and the branching ratio for the reaction Cl+HO2
Yuan-Pern Lee,Carleton J. Howard +1 more
TL;DR: The rate constant and branching ratio for the reaction have been measured in a discharge-flow system with far infrared laser magnetic resonance detection of HO2, OH, and ClO as mentioned in this paper.
References
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Chlorofluoromethanes in the Environment
F. S. Rowland,Mario J. Molina +1 more
TL;DR: In this article, the photoprocesses of atmospheric chlorofluoromethanes, including their ultimate sinks, are studied. Butt et al. present a detailed study of the photodissociation process of chlorofluromethane.
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Mass Spectrometry of the HO2 Free Radical
S. N. Foner,R. L. Hudson +1 more
TL;DR: In this article, mass spectrometric studies on the production, identification, and determination of thermochemical energies of HO2 radicals are reported, and the ionization potential of HO 2, I(HO)2, and appearance potential for HO2+ from H2O2, A(HO2+), have been redetermined.
Journal ArticleDOI
Flash photolysis resonance fluorescence investigation of the temperature dependencies of the reactions of chlorine(2P) atoms with methane, chloromethane, fluoromethane, excited fluoromethane, and ethane
Journal ArticleDOI
Halogen atom reactions: i. the electrical discharge as a source of halogen atoms
TL;DR: A number of surface poisons have been found to prevent the rapid recombination of chlorine, bromine, and iodine atoms as mentioned in this paper, which can now be obtained in large concentrations in a flow system.
Journal ArticleDOI
Kinetics of the reaction Cl + CH4 → CH3+ HCl from 200° to 500deg;K
TL;DR: In this paper, the rate constant for the reaction has been determined over the temperature range of 200°-500°K using a discharge flow system with resonance fluorescence detection of atomic chlorine under conditions of large excess CH4.
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