12061-70-0Relevant articles and documents
Dennis, L. M.,Rochow, E. G.
, p. 2431 - 2434 (1933)
Cady, G. H.
, p. 1647 - 1647 (1934)
Cheah, Chew Toong,Clyne, Michael A. A.,Whitefield, Philip D.
, (1980)
The detection of the free radical FO (X 2Π3/2) by submillimeter-wave spectroscopy
Tamassia, Filippo,Brown, John M.,Saito, Shuji
, p. 5523 - 5526 (2000)
Pure rotational transitions of the free radical FO in its X 2Π3/2 ground electronic state have been detected by millimeter-wave spectroscopy. Four transitions, which are all magnetic dipole in character, were measured in the frequency region from 219 to 408 GHz. The radical was produced by a well-known efficient reaction between ozone and fluorine atoms. The high sensitivity available in the submillimeter-wave region and a very efficient production method were essential for the detection of rotational transitions in this radical, which many other people have attempted in the past. No electric dipole transitions have been detected in this experiment. The precision of parameters associated with the rotational motion of FO has been improved considerably by fitting these lines together with previous data. Moreover, the parity-dependent nuclear spin rotation term C'l has been determined for the first time. The r0 and re structures of FO have been revised accordingly.
Dennis, L. M.,Rochow, E. G.
, p. 832 - 833 (1932)
Branched chain reaction NF2 + O3
Bedzhanyan,Ioffe,Il'in,Selikhanovich,Gershenzon,Rozenshtein
, p. 1077 - 1080 (2008/10/08)
The branched chain reaction NF2 + O3 was detected in the 300-545 K range by means of electron paramagnetic and laser magnetic resonance (EPR/LMR). Super-equilibrium concentrations of FO radicals were recorded. A mechanism is proposed for the process based on the chain branching reaction FO + NF2 → 2F + FNO.
