화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.128, No.50, 16073-16082, 2006
Nature and energies of electrons and holes in a conjugated polymer, polyfluorene
Electrons and holes were injected selectively into poly-2,7-(9,9-dihexylfluorene) (pF) dissolved in a tetrahydrofuran (THF) and a 1,2-dichloroethane (DCE) solution, respectively, using pulse radiolysis. Transient absorption spectra of monoions of both signs revealed two bands attributable to formation of polarons, one in the visible region (pF(+.) at 580 nm, pF(-.) at 600 nm) and another in the near-IR region. Additional confirmation for the identification of pF(+.) and pF(-.) comes from bimolecular charge-transfer reactions, such as bithiophene(-.) + pF -> pF(-.) or pF(+.) + TTA -> +TTA(+.) (TTA) tri-p-tolylamine), in which known radical ions transfer charge to pF or from pF. Difference absorption spectra of pF chemically reduced by sodium in THF provided a ratio of absorbance of anions formed to bleaching of the neutral band at 380 nm. In conjunction with pulse-radiolysis results, the data show that each polaron occupies 4.5 +/- 0.5 fluorene units, most probably contiguous units. Extensive reduction of pF by sodium also revealed resistance to formation of bipolarons: excess electrons reside as separate polarons when two or more electrons were injected. Redox equilibria with pyrene and terthiophene by pulse radiolysis established reversible one-electron redox potentials of E-0(pF(+/0)) +0.66 V and E-0(pF(0/-)) -2.65 V vs Fc(+/0). Together with the excited-state energy, these results predict a singlet exciton binding energy of 0.2 eV for pF in the presence of 0.1 M tetrabutylammonium tetrafluoroborate. This binding energy would increase substantially without an electrolyte.