Polymer solar cells are one of the promising energy sources because of the easy solution-processable production with large area at a low cost without toxicity. Among the polymer materials, a donor-acceptor conjugated copolymer PTB7 has been extensively studied because of the typical high-performance polymer solar cells. Here, we show operando direct observation of charge accumulation in PTB7:PCBM blend solar cells from a microscopic viewpoint using electron spin resonance spectroscopy. The accumulation of ambipolar charges in the PTB7-based cells is directly observed for the first time, which shows a clear correlation with the performance deterioration during device operation. The sites of the ambipolar charge accumulation are elucidated at the molecular level, whose information would be useful for improving the cell durability in addition to the performance improvement.
In
this study, we present novel insights into the light-soaking
effect of inverted polymer solar cells (PSCs), where the open-circuit
voltage (
V
oc
) of the cells improves over
time under light irradiation. The effect was investigated by electron
spin resonance (ESR) studies of bare indium tin oxide (ITO) and piperazine
derivative-modified ITO/regioregular poly(3-hexylthiophene) (P3HT):[6,6]-phenyl
C
61
butyric acid methyl ester (PCBM) substrates. These
results were combined with alternating current impedance spectroscopy
(IS) measurements of inverted PSCs based on the above substrates.
In ESR experiments with the substrates under white light irradiation,
with a UV light component, many P3HT
•+
radical cations
were observed in the bare-ITO/P3HT:PCBM substrate. The number of radical
cations was considerably suppressed in the ITO/P3HT:PCBM substrates
with ITO modified by piperazine derivatives. This is because adsorbed
oxygen molecules on the ITO acted as acceptor dopants for photoexcited
P3HT, and the amount of adsorbed oxygen was decreased by modifying
the ITO with piperazine derivatives. In IS measurements of the inverted
PSCs under white light irradiation, a decrease in the electric capacitance
(CPE2) of an electric double layer formed at the ITO/P3HT:PCBM interface
was observed. A strong correlation was observed between the decrease
of CPE2 and the increase of
V
oc
. From
these results, the light-soaking behavior was attributed to the removal
of an electron injection barrier formed between ITO and PCBM, under
white light irradiation.
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