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Electron spin resonance study of the photolytic decomposition of CF3I in inert matrices between 4.2°K and 35°K

✍ Scribed by S.W. Charles; P.H.H. Fischer; C.A. McDowell

Publisher
Elsevier Science
Year
1967
Tongue
English
Weight
333 KB
Volume
1
Category
Article
ISSN
0009-2614

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✦ Synopsis

The electron spin resonance spectrum of the trifluoromethyl radical (CF3) produced by the photolytic decomposition of CFQI has been observed at 4.2oK in xenon, krypton. and argon matrices. Complex spectra were observed in all cases and indicate that under these conditions the radical is randomly orientated and not free to rotate. At higher temperatures, -35OK, a basically four line spectrum is observed, but the two central lines are split, owing to second-order effects. into doublets with approximately 9 gauss separation. This somewhat simpler spectrum is attributed to the CF3 radical undergoing a rapid tumbling or isotropic motion. The isotropic &values and isotropic part of the fluorine hyperfine coupling constant are g = 2.0032 * 0.0001 and aF = 140.5 f 0.1 gauss in xenon, and g = 2.0033 i +O.OOOl and UF = 141.8 +O.l gauss in krypton.

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