Chlorofluorocarbons and Ozone

McFarland, M.; Kaye, Jack A.

doi:10.1111/j.1751-1097.1992.tb08540.x

Cited by 71 publications

(52 citation statements)

References 60 publications

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“…This research is increasingly connected with the investigation of small halogenated free radicals and ions via photoionization or photolysis of these halogenated molecules. The chemistry of these species and the chemical processes induced on their photolysis in the atmosphere are important for several reasons, but primarily because of their catalytic contribution to the depletion of the atmospheric ozone layer [21]. In the present work, we investigated the dissociation dynamics of ionic and excited neutral fragments of gaseous CH 2 Cl 2 following photoexcitations of Cl 2p electrons to various resonances by combining measurements of photoninduced ionic dissociation, x-ray absorption, and uv-visible dispersed fluorescence.…”

Section: Introductionmentioning

confidence: 99%

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following Cl
Lu
¹
,
Chen
²
,
Lee
³

et al. 2010
Phys. Rev. A

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Following photoexcitation of Cl 2p electrons to various resonances, the dissociation dynamics of ionic and excited neutral fragments of gaseous CH 2 Cl 2 was investigated by combined measurements of photon-induced ionic dissociation, x-ray absorption, and uv-visible dispersed fluorescence. The Cl 2p core-to-Rydberg excitations near the ionization threshold produce a notable enhancement of excited neutral fragments (C * and CH * ), which is attributed to the contribution from a shake-modified resonant Auger decay and postcollision interaction. The excitation Cl 2p → 10 a * 1 induces an enhanced yield of CH 2 + , possibly originating from fast dissociation via a strongly repulsive surface. The experimental results provide insight into the dissociation dynamics of ionic and excited neutral fragment production following core-level excitation.

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Section: Introductionmentioning

confidence: 99%

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following Cl
Lu
¹
,
Chen
²
,
Lee
³

et al. 2010
Phys. Rev. A

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“…This book detailed the environmental impacts of the indiscriminate spraying of DDT in the USA and questioned the logic of releasing large amounts of chemicals into the environment without fully understanding their effects on ecology or human health. Similar stories are now around the world in respect to chlorofluorocarbons and other atmospheric pollutants that are accepted as greenhouse gases or scavengers of stratospheric ozone [52] and perhaps also endocrine disruptors [53]. …”

Section: Atmospheric Pollutionmentioning

confidence: 99%

Environmental Attributes to Respiratory Diseases of Small Ruminants

Rahal

Ahmad

Prakash

et al. 2014

Veterinary Medicine International

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Respiratory diseases are the major disease crisis in small ruminants. A number of pathogenic microorganisms have been implicated in the development of respiratory disease but the importance of environmental factors in the initiation and progress of disease can never be overemphasized. They irritate the respiratory tree producing stress in the microenvironment causing a decline in the immune status of the small ruminants and thereby assisting bacterial, viral, and parasitic infections to break down the tissue defense barriers. Environmental pollutants cause acute or chronic reactions as they deposit on the alveolar surface which are characterized by inflammation or fibrosis and the formation of transitory or persistent tissue manifestation. Some of the effects of exposures may be immediate, whereas others may not be evident for many decades. Although the disease development can be portrayed as three sets of two-way communications (pathogen-environment, host-environment, and host-pathogen), the interactions are highly variable. Moreover, the environmental scenario is never static; new compounds are introduced daily making a precise evaluation of the disease burden almost impossible. The present review presents a detailed overview of these interactions and the ultimate effect on the respiratory health of sheep and goat.

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“…This is equalto the endothermicity at 298 K based on D 298 (HO-I) = 216 kJ mol" 1(52). 4(B) shows that, by contrast to H atom attack, the bond that is more reactive towards OH is the stronger C-H bond and that CH2 I + H 2 0 formation, the more exothermic channel, is expected to dominate at all temperatures. A check on the reliability of the kinetic calculations is comparison with the measurements of the total removal rate constant k 12 = k 12a + k 12b made by Brown et al (53).…”

mentioning

confidence: 96%

Ab Initio Calculations for Kinetic Modeling of Halocarbons

Berry

Schwartz

Marshall

1998

ACS Symposium Series

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The thermochemistry and reaction kinetics of halogenated hydrocarbons have been investigated by ab initio methods in order to improve our understanding of their flame chemistry and likely roles in flame suppression. Bond additivity corrections at the G2, G2(MP2), CBS-4 and CBS-Q levels of theory were developed for fluorinated and chlorinated C 1 and C 2 species, including saturated and unsaturated compounds. The resulting enthalpies of formation are in excellent agreement with experimental values. Transition states for the reactions of H atoms with hydrofluoromethanes were characterized at up to the G2 level of theory, and application of transition state theory yielded rate constants in good accord with experimental results. A similar analysis for H and OH reactions with CH 3 I also agrees with the known thermochemistry and kinetics. These investigations provide insight into the major product channels and the temperature dependence of the rate constants. The implications for flame suppression by haloalkanes are discussed.During the past two decades, it has become apparent that the release of volatile chlorofluorocarbons (CFCs) and halon fire suppressants (e.g. CF 3 Br, CF 2 ClBr, CF 2 Br-CF 2 Br) is a major cause of depletion of the stratosphere's ozone layer (7-5). Hence, there have been numerous restrictions placed upon the industrial use of CFCsand halons, which has led to concerted efforts to find new, "ozone-friendly" replacements (4). Potential replacement agents include hydrofluorocarbons and iodocarbons, which are degraded in the troposphere and, hence, pose no significant risk to the ozone layer. They also possess low global warming potentials.The effectiveness of a proposed flame suppressant can be reliably predicted via kinetic modeling provided accurate thermochemical and kinetic data are available for the hundreds of reactions associated with the suppressant and its interactions with

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Chlorofluorocarbons and Ozone

Cited by 71 publications

References 60 publications

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following Cl
Lu
¹
,
Chen
²
,
Lee
³

et al. 2010
Phys. Rev. A

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following Cl
Lu
¹
,
Chen
²
,
Lee
³

et al. 2010
Phys. Rev. A

Environmental Attributes to Respiratory Diseases of Small Ruminants

Ab Initio Calculations for Kinetic Modeling of Halocarbons

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Chlorofluorocarbons and Ozone

Cited by 71 publications

References 60 publications

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following ClLu1, Chen2, Lee3 et al. 2010Phys. Rev. A

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following ClLu1, Chen2, Lee3 et al. 2010Phys. Rev. A

Environmental Attributes to Respiratory Diseases of Small Ruminants

Ab Initio Calculations for Kinetic Modeling of Halocarbons

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Resources

About

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following Cl
Lu
¹
,
Chen
²
,
Lee
³

et al. 2010
Phys. Rev. A

State-selective enhanced production of positive ions and excited neutral fragments of gaseous CH2Cl2following Cl
Lu
¹
,
Chen
²
,
Lee
³

et al. 2010
Phys. Rev. A