Mj. Dibben et al., Photodissociation of the fluorene cation: A Fourier transform ion cyclotron resonance mass spectrometric study, J PHYS CH A, 105(25), 2001, pp. 6024-6029
The photodecomposition of the vapor phase fluorene cation has been studied
using Fourier transform ion cyclotron resonance (ICR) mass spectrometry. Br
oad-band visible and ultraviolet irradiation for relatively short times (si
milar to0.5 s) is shown to lead predominantly to sequential hydrogen atom l
oss, with one to five hydrogens lost. A relatively minor decomposition rout
e fur several precursor ions is the loss of H-2 (or 2H atoms). Longer irrad
iation times lead to various products resulting from multiple C-C bond clea
vages. The "action" spectrum for the m/z 166 --> 165 process reveals two ma
jor electronic absorption bands which correlate well with a previous matrix
absorption spectrum of the parent ion. The C13H10-n+ (n = 0-5) species hav
e been isolated in the ICR mass spectrometer, irradiated further, and their
photodecomposition followed kinetically. Solution of the appropriate coupl
ed differential equations that govern the kinetics has enabled fits to the
experimental data. Rate constants and branching ratios for the photodecompo
sition of fluorene and its dehydrogenated partner ions have been determined
. The photoproduct ions observed suggest rapid isomerization in some excite
d states with ring openings playing a possible role in certain decompositio
n pathways.