Efficient generation of charges via below-gap photoexcitation of polymer-fullerene blend films investigated by terahertz spectroscopy

Using optical-pump terahertz-probe spectroscopy, we have investigated the time-resolved conductivity dynamics of photoexcited polymer-fullerene bulk heterojunction blends for two model polymers: poly3-hexylthiopheneP3HT and poly2-methoxy-5-3,7-dimethyloctyloxy-1,4-phenylenevinylene MDMO-PPV blended with 6,6-phenyl-C61 butyric acid methyl ester PCBM. The observed terahertzfrequency conductivity is characteristic of dispersive charge transport for photoexcitation both at the � absorption peak 560 nm for P3HT and significantly below it 800 nm. The photoconductivity at 800 nm is unexpectedly high, which we attribute to the presence of a charge-transfer complex. We report the excitationfluence dependence of the photoconductivity over more than four orders of magnitude, obtained by utilizing a terahertz spectrometer based upon on either a laser oscillator or an amplifier source. The time-averaged photoconductivity of the P3HT:PCBM blend is over 20 times larger than that of P3HT, indicating that longlived hole polarons are responsible for the high photovoltaic efficiency of polymer:fullerene blends. At early times ps the linear dependence of photoconductivity upon fluence indicates that interfacial charge transfer dominates as an exciton decay pathway, generating charges with mobility of at least 0.1 cm 2 V �1 s �1 .A t later times, a sublinear relationship shows that carrier-carrier recombination effects influence the conductivity on a longer time scale 1 s with a bimolecular charge annihilation constant for the blends that is approximately two to three orders of magnitude smaller than that typical for neat polymer films.

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