Charge-remote and charge-proximate fragmentations in deuterium-labeled n-hexadecyltriphenylphosphonium cations upon high-energy collisional activation: evidence for the involvement of a phenyl biradical
C. Denekamp et al., Charge-remote and charge-proximate fragmentations in deuterium-labeled n-hexadecyltriphenylphosphonium cations upon high-energy collisional activation: evidence for the involvement of a phenyl biradical, INT J MASS, 188(3), 1999, pp. 163-175
The charge-remote fragmentation mechanism for n-alkyltriphenylphosphonium c
ations was examined through the use of high-energy collision-induced dissoc
iation experiments on specifically deuterium-labeled isotopomers. In additi
on to the study of the charge-remote fragmentation mechanism other ions in
the spectra, formed by so-called charge-proximate fragmentations, have also
been studied. It was found that different processes are responsible for th
e formation of the ions in the spectra. A deuterium-hydrogen isotope effect
of approximately 2 was measured for the 3,3-H-2(2) and 9,9-H-2(2) isotopom
ers, indicating that a C-H cleavage is a rate-determining step in the forma
tion of corresponding charge-remote product ions as was reported for alkali
-cationized fatty acid esters. Substantial insertion of hydrogens from the
triphenylphosphine moiety into the fully labeled alkyl chain upon high-ener
gy collision-induced dissociation points to the involvement of an excited s
tate biradical in the processes which take place upon high-energy collision
-induced dissociation. (C) 1999 Elsevier Science B.V.