Time-resolved infrared-absorption study of photoinduced charge transfer ina polythiophene-methanofullerene composite film

Photoinduced charge separation and recombination in poly(3-hexylthiophene)- fullerene derivative composite films is investigated at low temperature (80 K) by measuring the time-resolved photoinduced absorption due to the infra red active vibrational (IRAV) modes of the polymer in the region 1125-1300 cm(-1). The charge separation under 532 nm excitation (repetition rate 5 Hz ) is found co be faster than the time resolution of the setup (<200 ps). Th e decay of charge carriers can be described with power-law kinetics At-alph a with a single exponent alpha = 0.21 from the subnanosecond to microsecond time scale. Hence, a large percentage of the charges created (80%) recombi ne within 30 ns, the remaining long-lived ones recombine on a millisecond t ime scale. On the millisecond time scale the decay can be approximated by a 1/t dependence. On the nanosecond time scale, the IRAV modes show only a s mall change in frequency upon varying the pump-probe delay, indicating that the polaronic charge carriers on the polymer do not undergo major relaxati on processes in this time window.