posted on 2001-10-06, 00:00authored byTracy Donovan McCarley, Noble, C. J. DuBois,, Robin L. McCarley
Poly(3-hexylthiophene) synthesized by chemical oxidation with FeCl3 was investigated with
matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) using either dithranol or
the electron-transfer matrices terthiophene and anthracene. Two to three series of ions were observed in
the MALDI mass spectra. These series all have hexylthiophene repeat groups, and the end groups/modifications were identified as two or more chlorine atoms through the analysis of isotopic distributions
and exact mass measurements. The chlorine atoms may be end groups (on α- or β-carbons of terminal
thiophenes) or substituents on the β-carbons of the thiophene groups along the polymer backbone. Although
poly(3-alkylthiophenes) synthesized by this method have been reported to contain iron or chlorine
impurities, this is the first demonstration that the polymeric product actually contains chlorine atoms
that are covalently bound to the polymer chain (vs residual FeCl3). The FeCl3 oxidizing agentnot the
chlorinated solventis found to be responsible for halogenating the polymer, as determined by experiments
with FeBr3 as the oxidant. In addition, we have demonstrated that when using either dithranol or the
electron-transfer matrices, the ion series represent radical molecular cations, M•+, rather than the
protonated molecules or salt adducts that are typically observed in MALDI-MS.