IDENTIFICATION AND QUANTITATION OF GASEOUS COMPOUNDS OF FLUORINE GENERATED IN [F-18] F2 TARGET SYSTEMS

The first direct evidence for the chemical identity of the electrophil ic fluorinating agents generated in Ne-20(d,alpha)F-18 (single step), O-18(p,n)F-18 (single step and two step) and O-16(He-3(2+),p)F-18 (sin gle step) gas target systems, utilizing aluminum, silver, copper, nick el and gold plated copper target bodies, has been established with mul tinuclear NMR and mass spectral techniques. The major components of th e reactive fraction from these targets were also quantitated using F-1 9 NMR. Fluorine-19 NMR data of the reactive fraction of all proton and He-3(2+) irradiated oxygen gas target systems showed the presence of oxygen difluoride in various proportions. Samples from the single step method contained up to 20% OF2 while those from the two step process had 0-5%. Fluorine nitrate (FONO2) was observed only as a minor compon ent (0-3%) in the reactive fraction. The presence of OF2 and FONO2 was further confirmed by O-17 and N-15 NMR, respectively, using [O-17]O-2 and [N-15]N-2 spiked oxygen gas targets. The NMR results were support ed by mass spectral data collected with a residual gas analyzer (RGA). Both F-19 NMR and mass spectroscopy showed CF4 as the only major iner t component in the single-step oxygen target products. As expected, th e F-19 NMR and mass spectral data showed that the reactive fraction of the neon gas target constituted only F-2 and the inert fraction compr ised of CF4 and NF3.