2314-97-8Relevant articles and documents
Chemical Radical Synthesis in Gas Mixtures Induced by Infrared Multiple-Photon Dissociation
Bagratashvili, V. N.,Kuzmin, M. V.,Letokhov, V. S.
, p. 5780 - 5786 (1984)
Some experimental approaches to gas-phase radical chemical synthesis induced by the process of IR multiple-photon excitation of polyatomic molecules are considered.A comparison of laser and thermal initiation of gas-phase radical reaction is given.
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Emeleus,Rao
, p. 4245,4249 (1958)
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Paskovich et al.
, p. 833 (1967)
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Hauptschein,Grosse
, (1952)
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Henne,Finnegan
, p. 3806 (1950)
McAlpine,Sutcliffe
, p. 2070 (1972)
Tucker,Whittle
, p. 866 (1965)
Lord et al.
, p. 2705 (1967)
Amphlett,Whittle
, p. 1662 (1966)
ONE STEP PROCESS FOR MANUFACTURING TRIFLUOROIODOMETHANE FROM TRIFLUOROACETYL HALIDE, HYDROGEN, AND IODINE
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Paragraph 0048-0050, (2020/08/30)
The present disclosure provides a process for producing trifluoroiodomethane (CF3I). The process includes providing vapor-phase reactants including trifluoroacetyl halide, hydrogen, and iodine, heating the vapor-phase reactants, and reacting the heated vapor-phase reactants in the presence of a catalyst to produce trifluoroiodomethane. The catalyst includes a transition metal.
PROCESSES FOR PRODUCING TRIFLUOROIODOMETHANE USING METAL TRIFLUOROACETATES
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Page/Page column 0033-0036, (2020/09/19)
The present disclosure provides a process for producing trifluoroiodomethane. The process includes providing a metal trifluoroacetate, an iodine source, a metal catalyst, and a solvent, and reacting the metal trifluoroacetate and the iodine source in the presence of the metal catalyst and the solvent to produce trifluoroiodomethane. The metal catalyst includes at least one selected from the group of ferrous chloride and zinc (II) iodide.