The bimolecular recombination characteristics
of conjugated polymer
poly[(4,4′-bis(2-ethylhexyl)dithieno[3,2-
b
:2′,3′-
d
]silole)-2,6-diyl-alt-(2,5-bis
3-tetradecylthiophen-2-yl thiazolo 5,4-
d
thiazole)-2,5diyl]
(PDTSiTTz) blended with the fullerene series PC60BM, ICMA, ICBA, and
ICTA have been investigated using microsecond and femtosecond transient
absorption spectroscopy, in conjunction with electroluminescence measurements
and ambient photoemission spectroscopy. The non-Langevin polymer PDTSiTTz
allows an inspection of intrinsic bimolecular recombination rates
uninhibited by diffusion, while the low oscillator strengths of fullerenes
allow polymer features to dominate, and we compare our results to
those of the well-known polymer Si-PCPDTBT. Using μs-TAS, we
have shown that the trap-limited decay dynamics of the PDTSiTTz polaron
becomes progressively slower across the fullerene series, while those
of Si-PCPDTBT are invariant. Electroluminescence measurements showed
an unusual double peak in pristine PDTSiTTz, attributed to a low energy
intragap charge transfer state, likely interchain in nature. Furthermore,
while the pristine PDTSiTTz showed a broad, low-intensity density
of states, the ICBA and ICTA blends presented a virtually identical
DOS to Si-PCPDTBT and its blends. This has been attributed to a shift
from a delocalized, interchain highest occupied molecular orbital
(HOMO) in the pristine material to a dithienosilole-centered HOMO
in the blends, likely a result of the bulky fullerenes increasing
interchain separation. This HOMO localization had a side effect of
progressively shifting the polymer HOMO to shallower energies, which
was correlated with the observed decrease in bimolecular recombination
rate and increased “trap” depth. However, since the
density of tail states remained the same, this suggests that the traditional
viewpoint of “trapping” being dominated by tail states
may not encompass the full picture and that the breadth of the DOS
may also have a strong influence on bimolecular recombination.