1959-79-1Relevant academic research and scientific papers
KINETIC STUDY OF CHEMICALLY ACTIVATED FLUOROCYCLOPROPANE.
Dall'O,Heydtmann
, p. 24 - 30 (2007/10/02)
The photolysis of ketene at 313 nm was studied in the presence of fluoroethene and oxygen. The product formation was observed as a function of total pressure between 12 and 1080 mbar. Chemically activated fluorocyclopropane was formed by addition of singlet methylene to the double bond, and subsequent isomerization to the fluoropropenes as well as decomposition of these primary products to allene, propyne and HF was observed. The product yield was described by RRKM calculations; a stepladder deactivation model was used.
Bestimmung der Geschwindigkeitskonstanten der Reaktion von 1CH2 mit Fluor- und Chlorethen
Simon, F. G.,Heydtmann, H.
, p. 543 - 545 (2007/10/02)
The rate constants for the addition of 1CH2 to fluoroethene and chloroethene have been determined using the known rate constant for the reaction of 1CH2 with ketene.The experiments yielded the results k4a(296 K) = (8.2 -/+ 0.6)E13 cm3 mol-1 s-1 k4b(296 K) = (2.9 -/+ 0.4)E13 cm3 mol-1 s-1. - Keywords: Chemical Kinetics / Gases / Photochemistry / Radicals
The Generation of CF and an Investigation of the Products of Its Reaction with Alkenes
Rahman, M.,McKee, Michael L.,Shevlin, Philip B.
, p. 6296 - 6299 (2007/10/02)
The reaction of arc generated carbon atoms with CF4 at 77 K in the presence of alkene trapping agents results in the formation of fluorocyclopropanes and 1,1-difluoroalkanes.The fluorocyclopropanes are postulated to arise by addition of CF to the double bond generating a cyclopropyl radical which abstracts H.CF adds stereospecifically to olefins and gives both cis and trans fluorocyclopropanes with the trans generally predominating.The 1,1-difluoroalkanes are postulated to be the result of a 3CF2 reaction.In the presence of oxygen, the CF is oxidized to CO2, and the 3CF2 gives carbonyl fluoride.
