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Ultrafast measurements of transient excited-state absorption in the spectral region spanning the infrared-active vibrational active (IRAV) modes in the prototypical luminescent polymers, poly (phenylene vinylene) (PPV) and poly2-methoxy-5- (2-ethyl-hexyloxy) - (phenylene vinylene) (MEH-PPV), reveal charge carrier generation within 100 fs after photoexcitation. The photocarrier quantum efficiency in MEH-PPV is ₀0. 1 in zero applied electric field. There is no correlation between the temporal behavior of the photoinduced IRAV signals and the exciton lifetime. Thus, carriers are photoexcited directly and not generated via a secondary process from exciton annihilation. Comparison of the recombination dynamics in MEH-PPV and PPV demonstrates the importance of the strength of interchain interaction on the carrier recombination dynamics. The quantum efficiency is the same (₀0. 1) when the system is pumped either at photon energies well above the first -^* transition (at 267 nm, 4. 7 eV) or when pumped into the first -^* transition (at 400 nm, 3. 1 eV). The carrier lifetime, however, increases at the higher photon energy, providing a natural explanation for the increase in the photoconductivity at photon pump energies above 3 eV.
Moses et al. (Sat,) studied this question.
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